Age stratification influences the clinicopathological features and survival outcomes of breast cancer. We aimed to understand the effect of age on gene variants in young Chinese women with breast cancer compared with those from The Cancer Genome Atlas (TCGA).

Enrolled patients ≤ 40 years old (N = 370) underwent germline or somatic genetic testing using a 32-gene hereditary cancer panel at Fujian Union Hospital. Significant alterations of germline and somatic genes were analyzed. The frequency of somatic variants was compared between enrolled patients and patients from TCGA who were divided into two groups (≤ 40 years and > 40 years).

Among the enrolled patients (median age 36; range 25-40), 335 underwent germline genetic testing and 174 underwent simultaneous somatic genetic testing. We detected 44 germline pathogenic/likely pathogenic variants in 42 (12.5%) patients, where BRCA1/2 was the most common gene (29.8.5%). Family history of first-degree relatives was significantly associated with pathogenic variants (p < 0.001). Somatic Tier I/II mutation frequency was like that of patients ≤ 40 from TCGA (N = 97). More PIK3CA and TP53 mutations in luminal A and basal-like tumors, respectively, were detected in young patients than in patients > 40 from TCGA (N = 975). No significant differences were observed in other breast cancer subtypes.

These results provide a spectrum of genomic alterations in young Chinese women and highlight different frequencies of gene variants in young Asian patients versus Western patients with breast cancer. Further research should explore the biological mechanism to provide more treatment strategies for young Asian women.

Germline mutations in the tumor suppressor phosphatase and tensin homolog (PTEN) cause PTEN hamartoma tumor syndrome (PHTS). PHTS is characterized by an elevated lifetime risk of differentiated thyroid cancer (DTC), 30 times higher than the general population. However, only 1 in 3 PHTS patients develop DTC, and it remains unknown whether specific PTEN variants are associated with an increased risk of DTC. PTEN antagonizes the phosphatidylinositol 3-kinase (PI3K)-AKT signaling pathway, a frequently affected pathway in sporadic DTC. PTEN also acts as a guardian of the genome by interacting with other tumor suppressors. Here, we report how ionizing radiation, an environmental tumorigenic contributor, modifies the DNA damage response based on the type of germline PTEN variants. We hypothesized that certain PTEN variants associated with DTC create a pro-oncogenic molecular signature upon radiation-induced DNA damage. DTC-associated (PTEN M134R ) or DTC-non-associated (PTEN G132D ) germline PTEN mutant alleles were introduced into a human induced pluripotent cell (hiPSC) line derived from a healthy donor utilizing CRISPR-Cas9 gene editing technology. We determined radiation-induced transcriptomic changes in functional thyroid organoids induced from wild-type and both heterozygous PTEN mutant hiPSCs. Both bulk and single-cell RNA sequencing data indicated that radiation upregulated the p53 network more potently in the thyroid organoids with PTEN WT/G132D than those with PTEN WT/M134R , which could be mediated by AKT-dependent MDM2 inactivation and PTEN-p53 physical interaction. Our data suggest that the lack of p53 pathway activation through PTEN-p53 network interactions explains why PTEN M134R is a DTC-susceptible variant.

The global incidence of endometrial cancer is on the rise, marked by a notable surge in early-onset endometrial cancer (EOEC; age at diagnosis <50 years). By contrast to late-onset cases, EOEC displays distinct clinical, pathological, and molecular characteristics. The enhanced understanding of the disease's pathophysiology, enabling a more precise differentiation between low-risk and high-risk patients, could facilitate the establishment of risk-stratified treatments that preserve ovarian function and fertility in low-risk EOEC cases. In this review, we delve into the distinctive epidemiological, molecular, and clinical characteristics of EOEC, as well as early noninvasive screening and fertility preservation treatments.

It is largely unidentified concerning the underlying genetic causes responsible for triple-negative breast cancers (TNBC), with unpredictable disease recurrence. This study aimed to examine the role of ZNF703 (Zinc finger 703) in the malignant behaviors of TNBC and its role in predicting disease-free survival (DFS).

After downregulation of ZNF703 with short interfering RNA (siRNA), we examined the proliferation of TNBC cell line MDA-MB-231 by sulforhodamine B (SRB) assay, the invasion of cells by a transwell invasion model, and the migration of cells by the monolayer wound-healing experiment. mRNA-sequencing data of ZNF703, BRCA1, BRCA2, PALB2, CHEK2, CDH1, PTEN, STK11, ATM, and TP53, and corresponding clinical information were obtained from The Cancer Genome Atlas (TCGA) dataset for a total of 157 stage I-III TNBC samples. The selection of modeling features was executed using the Least Absolute Shrinkage and Selection Operator (LASSO) regression algorithm to avoid model overfitting. The TIMER 2.0 algorithm determined the associations between immune score and gene expressions. Kaplan-Meier analysis was conducted to plot survival analyses.

The aggressive tumor morphology, cell proliferation, cell migration, and cell invasion were partly reversed by the siRNA knockdown of ZNF703 in MDA-MB-231 cells. ZNF703 knockdown markedly enhanced the killing ability of cisplatin These phenomena were verified by another TNBC cell line BT-549. Patients with high expression of ZNF703 had an inferior DFS for TNBC patients at 8 years [Hazard ratio (HR) for high expression vs. low expression was 2.71; 95 %CI, 1.03 to 7.14, P = 0.044]. Receiver Operating Characteristic (ROC) curve was also developed, indicating the area under the curve (AUC) was 0.744 (95 %CI, 0.628 to 0.861) at 5 years and 0.738 (95 %CI, 0.552 to 0.924) at 8 years, respectively. In addition, LASSO regression results showed that the optimal penalization parameter corresponds to two prognostic genes - ZNF703 and STK11. The risk score was computed as Risk Score (RS) = 0.1033*ZNF703 + 0.2131*STK11 (named "ZS -TNBC model"). The high expression of both ZNF703 and STK11 had as high as 7.035 HR in comparison to the low-expression category (95 %CI, 2.044 to 24.206, P = 0.00197).

ZNF703 is required for the growth, invasion, and migratory behavior of TNBC cells. Downregulation of ZNF703 increases cisplatin efficacy. This study suggests that either ZNF703 alone or in conjunction with STK11 can be utilized to predict DFS in TNBC.

Children with PTEN hamartoma tumor syndrome (PHTS) are at increased risk for developing thyroid abnormalities, including differentiated thyroid carcinoma (DTC). The Dutch PHTS guideline recommends ultrasound surveillance starting from age 18 years. Since the literature describes PHTS patients who developed DTC before this age, the Dutch PHTS expertise center has initiated annual ultrasound surveillance starting from age 12 years. The purpose of this study was to identify the yield of thyroid ultrasound surveillance using this cut-off.

A retrospective, single center, cohort study was conducted. Pediatric PHTS patients who received thyroid ultrasound surveillance before age 18 years between 2016-2023 were included. Medical records were reviewed. Primary outcomes included prevalence and time to develop thyroid nodules ≥10 mm, nodular growth, goiter, thyroiditis and DTC. Descriptive statistics and Kaplan-Meier analyses were performed.

Forty-three patients were included. Two (5%) were diagnosed with DTC at ages 12 and 17 years. Both DTCs were identified as minimally invasive follicular carcinoma at stages pT3NxMx and pT1NxMx respectively. A total of 84% were diagnosed with thyroid abnormalities at a median age of 12 (9-18) years. Most common findings were benign, including nodular disease (74%), goiter (30%) and autoimmune thyroiditis (12%). Nodular growth was observed in 14 patients (33%) resulting in (hemi)thyroidectomy in 7 (16%).

Thyroid ultrasound surveillance resulted in the detection of DTC in 2/43 (4.65%) PHTS patients before age 18. These findings support the recommendation to initiate thyroid ultrasound surveillance in children with PHTS from at least age 12, preferably within an expertise center.

Distinct subgroups of rare brain tumors can be molecularly classified using whole genome DNA methylation profiling and next-generation sequencing. Furthermore, these tools can identify germline mutations contributing to carcinogenesis. Access to molecular testing in the clinical setting is vital for pathology laboratories to make an accurate diagnosis. One molecularly unique brain tumor requiring such tools is the papillary tumor of the pineal region (PTPR). Herein, we present a case report of a 21-year-old male presenting with macrocephaly and obstructive hydrocephalus due to the PTPR. Next-generation sequencing identified a pathogenic PTEN p.G132D mutation in the tumor and matched germline findings further identified PTEN Hamartoma Tumor Syndrome (PHTS). The case report tumor was initially misdiagnosed as ependymoma while methylation profiling classified it more specifically as a PTPR, Group B. To better understand the current status of PTPRs, we conducted a systematic review of recent cases reporting on the diagnostics, treatments, and outcomes for PTPR patients. To our knowledge, this is the first case report for PTPRs revealing an association with PHTS. Our review revealed inconsistencies in diagnostics, treatments, and outcomes for PTPR, and an underutilization of definitive molecular testing.

PTEN hamartoma tumor syndrome (PHTS) is associated with increased lifetime risks of breast, thyroid, kidney, endometrial, and colorectal cancers, as well as melanoma (collectively, component cancers). We sought to characterize non-component cancers (NCC) in PHTS. Of 701 research participants with PHTS, 340 (49%) had cancer, with 101 (30%) having at least one NCC. Interestingly, 71 (70%) of those with NCC had at least one other PHTS component malignancy. Patients with pathogenic PTEN variants showed higher risks for prostate cancer and soft tissue sarcomas at younger ages than the general population. A literature survey showed independent cases of NCC in PHTS, with PTEN-related molecular changes including second-hit somatic PTEN alterations in a subset of various specimens. We recommend increased awareness regarding NCC in individuals with PHTS, particularly increased risks for prostate cancer and sarcoma. Further studies are needed to define age-related penetrance and accordingly, the appropriate strategies for cancer risk management.

Cowden syndrome (CS) is a complex and rare hereditary disorder characterized by a high risk of developing both benign and malignant tumors. Germline variants in the PTEN gene lead to this autosomal dominant syndrome, which predisposes individuals to lesions of the skin and mucous membranes, as well as breast, thyroid, endometrial, and kidney cancers. Early identification of symptoms is essential for implementing effective therapeutic strategies, especially in managing thyroid cancer risk.

During a tonsillectomy in an 8-year-old boy, the surgeon incidentally noted a left lateralized thyroid swelling. The clinical picture of Cowden syndrome was further supported by the presence of macrocephaly and intellectual disability since birth along with rare and atypical thyroid disorder marked by a toxic adenoma. Genetic analysis of both the tissue and blood samples confirmed the diagnosis. The clinical manifestation of thyroid issues in a young child may indicate CS, a condition that is often poorly assessed by clinicians. Family history revealed that the boy's father and sister also carry the same heterozygous variant, presenting a spectrum of Cowden syndrome manifestations.

Molecular analysis of the PTEN gene should be considered in young patients with thyroid nodules or nodules associated with abnormal thyroid function test, even without clear evidence of Cowden syndrome, particularly if there is a family history of thyroid, breast, or hamartoma-related conditions.

(1) Background/Objectives: Women with PTEN hamartoma tumor syndrome (PHTS) face a significantly increased risk of breast cancer (up to 66%) and a high prevalence of benign breast lesions (30-75%), which can complicate cancer detection and underscore the need for effective surveillance strategies. This study aimed to evaluate the imaging characteristics of breast cancers and benign breast lesions using magnetic resonance imaging (MRI) and mammography, with the goal of improving early cancer detection, reducing unnecessary biopsies, and guiding future surveillance protocols. (2) Methods: This retrospective single-institution study included 65 PHTS women aged ≥18 years (2001-2021), 39 of whom participated in a high-risk breast cancer surveillance program. Imaging features of breast cancers from MRI and mammography (when available) and of benign breast lesions from MRI only were assessed independently by two breast radiologists and correlated with pathology reports. Sensitivity and performance of MRI and mammography in detecting breast cancers and benign breast lesions were analyzed using descriptive statistics and correlation analyses, with significance set at p < 0.05. (3) Results: Imaging was available for re-evaluation for 17 breast cancers (with MRI available for 10 cases and mammography for 15 cases) diagnosed in 11 women and 31 benign breast lesions (with MRI available for 29 cases and mammography for 26 cases) in 16 women. MRI identified 90% (9/10) of the breast cancers for which it was available as suspicious, with malignant features retrospectively identifiable in 50% of baseline scans. In comparison, mammography identified only 40% (6/15) of breast cancers and was notably less effective in women with dense breast tissue. For benign breast lesions, MRI identified all lesions (29/29), while mammography underperformed, correctly identifying only 58% (15/26). However, ambiguous enhancement features on MRI occasionally posed challenges in distinguishing between benign breast lesions and malignancies. (4) Conclusions: MRI significantly outperformed mammography in accurately characterizing both breast cancers and benign breast lesions in women with PHTS, particularly in younger women with dense breast tissue. These findings reinforce the critical role of MRI as the primary surveillance tool for this high-risk population, given that breast cancers in women with PHTS tend to exhibit typical malignant features on MRI. However, they also highlight the importance of careful interpretation of MRI findings for benign breast lesions and the need for additional strategies to minimize unnecessary interventions.

The incidence of Breast cancer (BC) is currently augmented and it has become the most common malignant cancer in females. Phosphatase and tensin homolog (PTEN) is a tumor suppressor gene as a result of blocking the phosphorylation of PIP3 in PI3K pathway.

The computational bioinformatics tools were performed to determine the link between PTEN rs701848T/C genetic variants and breast cancer progression. 50 healthy matched controls and 100 Egyptian women with breast cancer were enrolled in the study. The PTEN rs701848T/C polymorphism was assessed using qRT-PCR. Then the proteomic level of PTEN was measured by ELISA technique.

Breast cancer patients had considerably higher (TC) genotype frequency than controls, p = 0.03. Moreover, TC carriers had a higher chance of developing tumors with advanced stage, big tumor size, and metastasis at further sites. Regarding proteomic level of PTEN, a remarkable decline was correlated significantly with disease progression. Moreover, the ROC curve analysis showed that the PTEN protein showed comparable diagnostic accuracy in distinguishing between different BC stages.

The current research provides insight into the impact of PTEN as a predictive marker for BC development and progression at genomic and proteomic levels.

Cowden syndrome (CS)/PTEN hamartoma tumor syndrome (PHTS) is a hereditary disorder caused by germline PTEN variants. While patients with CS/PHTS have increased risk of various cancers, pancreatic cancer is not typically associated with this syndrome. We report a rare case of pancreatic mixed acinar-neuroendocrine carcinoma in a patient with a germline PTEN variant, aiming to understand its molecular characteristics and clinical implications.

A male in his late 40s presented with pancreatic cancer and hepatic metastases. His medical history included thyroid cancer and familial gastrointestinal malignancies. Liver biopsy revealed mixed acinar-endocrine carcinoma. Cancer genome profiling identified pathogenic variants in GNAS and TP53, along with a germline PTEN variant (V201fs*1), leading to a diagnosis of CS. Notably, KRAS mutations, commonly found in pancreatic cancer, were absent. The patient showed extreme resistance to multiple chemotherapy regimens, including FOLFIRINOX, gemcitabine plus nab-paclitaxel, and cisplatin plus etoposide, resulting in rapid clinical decline.

This case highlights a rare presentation of pancreatic cancer in CS/PHTS with distinct molecular and histological features. The absence of KRAS mutation and presence of germline PTEN variant may have contributed to the aggressive clinical course and treatment resistance. These findings underscore the need for further research into the molecular mechanisms of PTEN-associated pancreatic cancers and the development of targeted therapeutic strategies.

Phosphatase and tensin homolog (PTEN) hamartomas comprise a spectrum of disorders that involve multiple systems and originate from a group of allelic disorders from germ line mutations in the PTEN gene. PTEN hamartomas involve a spectrum of disorders with diversed clinical manifestations and diagnosis can be challenging, particularly when lesions mimic other conditions.

We present a case of a PTEN hamartoma in an eighteen-year-old male, who presented with a history of swelling on the chin with episodic bleeds. Initial diagnosis of an arteriovenous malformation was made radiologically but was later confirmed by histopathological and immunohistochemistry to be a case of PTEN hamartoma.

PTEN is a tumor suppressor gene, and patients with germline PTEN mutations are more likely to develop malignancies, particularly epithelial, mesenchymal, and hematopoietic cancers. PTEN hamartomas cause a variety of conditions, including Cowden syndrome, Bannayan-Riley-Ruvalcaba syndrome, PTEN-related Proteus syndrome, and Proteus-like syndrome. As a result, cancer surveillance is critical in managing PTEN hamartoma tumor syndrome (PTHS) patients. All PTEN mutation carriers should adhere to approved cancer surveillance measures.

This case highlights the unusual presentation of PTHS. It can present as an isolated PTEN hamartoma of Soft Tissue (PHOST) lesion without systemic findings and establishing a genetic diagnosis is important to the patient's future health. A multidisciplinary approach with the clinical, radiologic and pathologic findings of PTHS and PHOST lesions will more rapidly lead to an accurate diagnosis. Prompt diagnosis and appropriate treatment are important to prevent potentially severe outcomes.

PTEN Hamartoma Tumor Syndrome (PHTS) is an autosomal dominant disorder characterized by high penetrance and significant phenotypic variability. In most patients, targeted high-throughput sequencing (HTS) approaches enable the detection of loss-of-function pathogenic variants in PTEN, a tumor suppressor gene acting as a negative regulator of the PI3K-AKT pathway. We describe a patient exhibiting a clinical phenotype strongly indicative of PHTS, yet lacking a molecular diagnosis through PTEN-targeted HTS. After several years of diagnostic uncertainty, trio whole genome sequencing (WGS) ultimately identified a de novo germline deep intronic 98 bp deletion in PTEN intron 5 (c.492 + 1671_492 + 1768del). Targeted RNA sequencing revealed the inclusion of a pseudoexon, resulting in a frameshift and predicted protein truncation at codon 171 (p.Val166Asnfs*6). These data underline the importance of WGS approaches in detecting deep intronic structural variants, that may be overlooked by conventional methods.

Endometrial cancer (EC) is the most prevalent gynaecological cancer in the UK with a rising incidence. Various models exist to predict the risk of developing EC, for different settings and prediction timeframes. This systematic review aims to provide a summary of models and assess their characteristics and performance.

A systematic search of the MEDLINE and Embase (OVID) databases was used to identify risk prediction models related to EC and studies validating these models. Papers relating to predicting the risk of a future diagnosis of EC were selected for inclusion. Study characteristics, variables included in the model, methods used, and model performance, were extracted. The Prediction model Risk-of-Bias Assessment Tool was used to assess model quality.

Twenty studies describing 19 models were included. Ten were designed for the general population and nine for high-risk populations. Three models were developed for premenopausal women and two for postmenopausal women. Logistic regression was the most used development method. Three models, all in the general population, had a low risk of bias and all models had high applicability. Most models had moderate (area under the receiver operating characteristic curve (AUC) 0.60-0.80) or high predictive ability (AUC > 0.80) with AUCs ranging from 0.56 to 0.92. Calibration was assessed for five models. Two of these, the Hippisley-Cox and Coupland QCancer models, had high predictive ability and were well calibrated; these models also received a low risk of bias rating.

Several models of moderate-high predictive ability exist for predicting the risk of EC, but study quality varies, with most models at high risk of bias. External validation of well-performing models in large, diverse cohorts is needed to assess their utility.

The protocol for this review is available on PROSPERO (CRD42022303085).

PTEN hamartoma tumour syndrome (PHTS) is an autosomal dominant hereditary cancer syndrome, caused mostly by germline pathogenic variants in PTEN. Female carriers have an up to 80% lifetime risk of breast cancer. Pathological features of breast cancer in PHTS have seldom been reported. In a collaboration between all histopathology laboratories in our state and our statewide familial cancer service, we tracked the breast biopsies of 12 females with known PTEN pathogenic or likely pathogenic (P/LP) variants (January 1990 to January 2018). Two further cases were added by a Victorian cancer genetics unit. Breast cancer, inclusive of invasive cancer or ductal carcinoma in situ (DCIS), was diagnosed in 12 of 14 cases (85.7%). One case had a family history of PHTS, and six had a family history of breast cancer. The mean age at first breast cancer diagnosis was 41.6 years (range 27-63). Six cases developed more than one breast cancer. Five (42%) developed contralateral breast cancer. Ten of the 12 invasive cancers were of no special type, and two were reported as lobular carcinomas. None were grade 1. When reported, all cancers were hormone-receptor positive and HER2 negative. All were associated with DCIS. The DCIS spanned all grades. The two cases without breast cancer still required surgery for exuberant benign changes, including papillomas, fibroadenomatoid change, florid ductal epithelial hyperplasia, adenosis ​and stromal fibrosis. We note that the morphology and receptor profiles of breast cancer in individuals with P/LP PTEN variants are not distinctive. Contrary to prevalent beliefs, these cancers do not conform to the contemporary definition of apocrine breast carcinoma. Greater familiarity of healthcare professionals with the overall clinical and pathological findings in PHTS and the validated Cleveland Clinic PTEN calculator (http://www.lerner.ccf.org/gmi/ccscore) would improve the recognition of female PHTS individuals with breast cancer. Earlier identification of their cancer predisposition syndrome would benefit these patients and their families who are at high risk of a range of cancers.

The phosphatase and tensin homolog hamartoma tumor syndrome (PHTS) refers to a spectrum of disorders caused by variants of the phosphatase and tensin homolog (PTEN) gene, including Cowden syndrome (CS), Bannayan-Riley-Ruvalcaba syndrome, adult Lhermitte-Duclos disease, and autism spectrum disorders associated with macrocephaly. PHTS is characterized by hamartomas in multiple organs and is associated with an increased risk of developing malignant tumors including, breast, thyroid, endometrial, colorectal, and kidney tumors. Breast cancer is the most common malignancy associated with PHTS.

We describe the case of a 44-year-old female patient with invasive ductal carcinoma of the right breast. Cobblestone papillomatosis was present in the gingiva. She had a medical history of bilateral adenomatous goiters for 10 years. Her mother had been diagnosed with breast cancer, thyroid and tongue tumors, gastric polyps, hepatic hemangioma, and collagen disease. Additionally, the patient's maternal grandmother had a history of colon cancer. Based on the patient's family history and physical findings, CS was suspected, and direct DNA sequencing analysis revealed a haplotype c.634del mutation in exon 7 of the PTEN gene. Although there is no clear evidence supporting risk-reducing surgery for PHTS, a right nipple-sparing mastectomy, sentinel lymph node biopsy, and tissue expander reconstruction were performed.

We report a case of breast cancer with a newly diagnosed c.634del mutation in the PTEN gene. We also reviewed the current literature on PTEN genetic variants and breast cancer subtypes.

AKT1-related Proteus syndrome is an ultra-rare mosaic overgrowth disorder with tumour predisposition. We conducted a systematic review to determine the range and characteristics of these tumours. A systematic review was conducted to identify clinical reports and clinical series of Proteus syndrome published between 1983 and 2023. Affected individuals were selected based on existing Proteus syndrome diagnostic criteria and expert review. Six databases were searched, and each unique record was screened independently by two authors. Two authors extracted the following data from each included report per individual: demographics, tumour diagnosis, characteristics, outcome, clinical features of Proteus syndrome and report of AKT1 genetic testing. The literature searches yielded 3074 records of which 1239 were unique and screened. After screening, 190 records were included. These represented 205 unique individuals with Proteus syndrome. There were 38 individuals (19%) with at least one tumour diagnosis. The average age of tumour diagnosis was 15.1 years (SD 12.1). The most frequent tumour sites were genitourinary/gynaecologic (25 tumours, 53%) followed by the central nervous system (11 tumours, 23%). Most tumours were benign and treated with surgery alone. This systematic review provides a summary of Proteus syndrome-associated tumours from the literature. These data assist clinicians in the diagnosis and prognosis of these tumours. The study highlights the knowledge gap of possible adult-onset tumours and long-term outcomes, which requires further research. PROSPERO registration number CRD42021237914.

BACKGROUND Cowden syndrome is a genetic disorder that predisposes individuals to cancer and is characterized by hamartomas derived from 3 germ layers. Although the clinical signs can be pathognomonic, diagnosis is often aided by biopsies, histopathological examination of oral and cutaneous lesions, and genetic studies, including multiple ligation-dependent probe amplification (MLPA). CASE REPORT We report a case of a 35-year-old woman who manifested with multiple lesions in the buccal mucosa, dorsum of the tongue, and gums, along with papillomatous papules on her facial skin and the dorsal surfaces of her hands. These lesions were identified as hamartomas. Laboratory tests, including blood biometry, blood chemistry, and coagulation profiles, returned results within normal ranges. Her medical history revealed uterine fibroids, raising suspicion of Cowden syndrome. A genetic consultation confirmed the diagnosis, revealing a heterozygous PTEN deletion. CONCLUSIONS This case illustrates the importance of a multidisciplinary approach in diagnosing Cowden syndrome, especially the role of dental professionals in recognizing early clinical signs. Early diagnosis through genetic testing is crucial due to the patient's elevated risk of malignancies. Healthcare providers must remain vigilant to syndromes such as Cowden syndrome, particularly in patients with relevant family histories, to ensure timely intervention and comprehensive management.

Nearly a quarter century ago, Hanahan and Weinberg conceived six unifying principles explaining how normal cells transform into malignant tumors. Their provisional set of biological capabilities acquired during tumor development-cancer hallmarks-would evolve to 14 tenets as knowledge of cancer genomes, molecular mechanisms, and the tumor microenvironment expanded, most recently adding four emerging enabling characteristics: phenotypic plasticity, epigenetic reprogramming, polymorphic microbiomes, and senescent cells. AKT kinases are critical signaling molecules that regulate cellular physiology upon receptor tyrosine kinases and PI3K activation. The complex branching of the AKT signaling network involves several critical downstream nodes that significantly magnify its functional impact, such that nearly every organ system and cell in the body may be affected by AKT activity. Conversely, tumor-intrinsic dysregulation of AKT can have numerous adverse cellular and pathologic ramifications, particularly in oncogenesis, as multiple tumor suppressors and oncogenic proteins regulate AKT signaling. Herein, we review the mounting evidence implicating the AKT pathway in the aggregate of currently recognized hallmarks of cancer underlying the complexities of human malignant diseases. The challenges, recent successes, and likely areas for exciting future advances in targeting this complex pathway are also discussed.

The phosphatase and tensin homologue (PTEN) hamartoma tumour syndrome (PHTS) is a genetic disorder with variable clinical presentation and increased lifetime risk of multiorgan malignancies. The thyroid gland is commonly affected with follicular nodular disease (FND) and follicular cell-derived carcinomas. Histopathological and immunohistochemical assessment of thyroid disease in PHTS is essential to identify patients at-risk.

In all, 30 PHTS patients with available thyroidectomy specimen material (2000-2023) and 31 control patients with FND and "adenomatous nodules" were retrieved. Histologic criteria, including the frequency of adenomatous-type nodules versus hyperplastic-type nodules, background and nodular lipomatous metaplasia, chronic lymphocytic thyroiditis, cytoplasmic clearing of follicular cells in nodules, nodule-in-nodule appearance, and spectrum of nuclear atypia between nodules were evaluated in both cohorts and a Thyroid Histomorphologic PHTS Score (THiPS) system was established with a cutoff of 4 points or higher being considered concerning for PHTS. In all, 27 PHTS (90%) and five control (16.1%) cases had THiPS ≥4. A PTEN immunohistochemical stain was evaluated in 25 cases of each cohort and showed nuclear and cytoplasmic loss of expression in all or most of the nodules of 24/25 PHTS cases. In 3/25 control cases, two with THiPS ≥4, had loss of expression in one to multiple nodules. Conventional papillary thyroid carcinomas in PHTS patients retained PTEN cytoplasmic expression.

Our study supports that, although not specific, the finding of multiple histologic features is found more frequently in patients with PHTS compared to the non-PHTS control group. The THiPS system has high sensitivity for thyroid specimens from patients with PHTS.

Cowden syndrome (CS) represents a rare autosomal dominant disorder caused by mutations in the PTEN gene located on chromosome 10q23.3. This entity belongs to the PTEN hamartoma tumor syndrome (PHTS) spectrum. The PTEN gene encodes a tumor suppressor protein crucial for regulating cell growth, survival, and apoptosis. Pathogenic mutations in PTEN result in dysregulated cell proliferation, manifesting clinically as benign and malignant growths across various tissues. CS is characterized by a predisposition to multiple hamartomas and an elevated risk of cancers, most notably in the skin, soft tissues, thyroid, breast, and gastrointestinal tract. In pediatric patients, macrocephaly is frequently the earliest feature, often accompanied by developmental delays and neurological deficits. This case series details the clinical evolution and multidisciplinary management of two siblings with CS and normal psychomotor development. Genetic testing identified a familial PTEN mutation, with multiple affected relatives, including the siblings' father, paternal aunt and paternal grandfather, each displaying distinct phenotype. This familial clustering highlights the autosomal dominant inheritance of CS and points out the critical importance of early genetic testing, vigilant surveillance, and tailored counselling for at-risk relatives. Phenotypic variability observed between members of the same family points out the difficulties in predicting transgenerational outcomes and complicates genetic counselling.

Patients with PTEN hamartoma tumor syndrome (PHTS), a molecular diagnosis for those carrying germline PTEN pathogenic variants, have a high prevalence of benign and malignant thyroid disease. Characterizing the genomic landscape in PHTS thyroid tumors could provide insights into malignant potential and tumor progression to help optimize diagnosis, surveillance, and treatment in this population. To reveal the somatic alterations in PHTS-associated thyroid tumors, we conducted exome sequencing on 58 thyroid tumors (28 cancers, 30 benign nodules) from 19 patients with PHTS. A control cohort of 447 sporadic papillary thyroid cancers (PTC) from The Cancer Genome Atlas was used for comparison. PHTS-associated thyroid tumors had a unique genomic landscape in the setting of a pathogenic germline PTEN mutation, when compared with the general population. PHTS-associated thyroid tumors demonstrated a high frequency of second-hit somatic PTEN alterations, including variants and loss-of-heterozygosity events. Second-hit somatic PTEN alterations were more prevalent in PHTS-associated PTC than sporadic PTC (65.2% vs. 0.067%), occurring frequently in PHTS-associated follicular thyroid cancer (100%) and benign follicular nodules (90%). PHTS-associated PTC additionally harbored somatic alterations in BRAF, RAS family members, and genes associated with DNA double-stranded break repair, as well as somatic arm-level copy-number variations. Together, these findings suggest that biallelic PTEN alterations may function as foundational mutations in PHTS thyroid tissue, promoting benign growth and increasing potential for malignant transformation through impaired DNA double-stranded break repair and increased genomic instability. The unique genomic landscape of PHTS-associated thyroid tumors carries implications for molecular-targeted therapies for patients. Significance: Exome sequencing reveals the distinct mutational landscape of PTEN hamartoma tumor syndrome-associated thyroid cancers from sporadic counterparts, providing insights into tumor progression and behavior that could help improve diagnosis, surveillance, and treatment.

PTEN hamartoma tumor syndrome (PHTS) has a broad clinical spectrum including various benign and malignant tumors at varying age of diagnosis. Many patients remain unrecognized, unaware of their increased cancer risk. We aimed to describe the cancer spectrum, age of onset and histopathological cancer characteristics to assess whether specific cancer characteristics could improve PHTS recognition. Genetic testing results and pathology reports were collected for patients tested for germline PTEN variants between 1997 and 2020 from the diagnostic laboratory and the Dutch nationwide pathology databank (Palga). The cancer spectrum and age of onset were assessed in patients with (PTENpos) and without (PTENneg) a germline PTEN variant. Histopathological cancer characteristics were assessed in a nested cohort. 341 PTENpos patients (56% females) and 2882 PTENneg patients (66% females) were included. PTENpos patients presented mostly with female breast (BC, 30%), endometrial (EC, 6%), thyroid (TC, 4%) or colorectal cancer (4%). PTENpos were significantly younger at cancer onset (43 vs. 47 years) and had more often (46% vs. 18%) a second BC than PTENneg. PTEN detection rates were highest for BC <40 years (9%), TC <20 years (15%) and EC <50 years (28%), and dropped to 6%, 4%, and 15% by age 60. Histopathological characteristics were similar between groups. No histopathological cancer characteristics were distinctive for PHTS. However, PTENpos were significantly younger at cancer onset. Therefore early-onset BC, EC, or TC warrants consideration of PHTS diagnostics either through a pre-screen for other PHTS features or direct germline testing.

Breast cancer is the most frequent cancer among women. Genetics are the main risk factor for breast cancer. Statistics show that 15-25% of breast cancers are inherited among those with cancer-prone relatives. BRCA1, BRCA2, TP53, CDH1, PTEN, and STK11 are the most frequent genes for familial breast cancer, which occurs 80% of the time. In rare situations, moderate-penetrance gene mutations such CHEK2, BRIP1, ATM, and PALB2 contribute 2-3%.

A search of the PubMed database was carried out spanning from 2005 to July 2024, yielding a total of 768 articles that delve into the realm of familial breast cancer, concerning genes and genetic syndromes. After exclusion 150 articles were included in the final review.

We report on a set of 20 familial breast cancer -associated genes into high, moderate, and low penetrance levels. Additionally, 10 genetic disorders were found to be linked with familial breast cancer.

Familial breast cancer has been linked to several genetic diseases and mutations, according to studies. Screening for genetic disorders is recommended by National Comprehensive Cancer Network recommendations. Evaluation of breast cancer candidate variations and risk loci may improve individual risk assessment. Only high- and moderate-risk gene variations have clinical guidelines, whereas low-risk gene variants require additional investigation. With increasing use of NGS technology, more linkage with rare genes is being discovered.

PTEN hamartoma tumor syndrome (PHTS) is a well-recognized hereditary tumor syndrome and is now also recognized as a common cause of monogenic autism spectrum disorder. There is a vast spectrum of phenotypic variability across individuals with PHTS, and in addition to neurodevelopmental challenges, patients with PHTS may experience a wide variety of neurologic challenges, many of which have only recently been described. Thus, this systematic review aimed to summarize the breadth of the current knowledge of neurologic conditions in individuals with PHTS.

We conducted a systematic review using the MEDLINE and EMBASE databases until January 2023. We included studies that reported neurologic signs, symptoms, and diagnoses in patients with a diagnosis of PHTS. Two independent reviewers extracted data (neurologic diagnoses and patient details) from each study. Case reports, case series, prospective studies, and therapeutic trials were included. We assessed the quality of evidence using the appropriate tool from the JBI, depending on study design.

One thousand nine hundred ninety-six articles were screened, and 90 articles met the inclusion criteria. The majority of the included studies were case reports (49/90, 54%) or small case series (31/90, 34%). Epilepsy secondary to cerebral malformations, neurologic deficits from spinal or cranial arteriovenous malformations, and rare tumors such as dysplastic cerebellar gangliocytoma are among the more severe neurologic features reported across patients with PHTS. One interventional randomized control trial examining neurocognitive endpoints was identified and did not meet its efficacy endpoint.

Our systematic review defines a broad scope of neurologic comorbidities occurring in individuals with PHTS. Neurologic findings can be categorized by age at onset in individuals with PTHS. Our study highlights the need for additional clinical trial endpoints, informed by the neurologic challenges faced by individuals with PHTS.

The dual-stratified pathway of endometrial carcinomas (ECs) has long been dominant. However, in 2013, The Cancer Genome Atlas (TCGA) defined four EC subgroups with distinctive prognoses. Inspired by TCGA, in 2018, the Proactive Molecular Risk Classifier for Endometrial Cancer (ProMisE) provided four pragmatic molecular classifiers to apply surrogate immunohistochemical markers to TCGA subgroup categorization. These trends prompted the revision of 2020 WHO Classification of Female Genital Tumors, 5th edition (2020 WHO classification), in which four molecular subtypes are recognized: POLE-ultramutated; mismatch repair-deficient; p53-mutant; and no specific molecular profile. In the 2020 WHO classification, the diagnostic algorithm is characterized by prioritizing POLEmut over other molecular abnormalities. Following the 2020 WHO classification, Federation of International Gynecology and Obstetrics (FIGO) proposed a new staging system in 2023. The updated system focuses on diagnostic parameters, such as histological type and grade, lymphovascular space invasion, and molecular alterations. These new histomolecular diagnostic concepts of ECs are being accordingly introduced into the routine pathology practice. For the first time, the 2020 WHO classification includes mesonephric-like adenocarcinoma (MLA) as a novel histological entity, mimicking the conventional mesonephric adenocarcinoma, but is considered of Müllerian ductal origin.

Bannayan-Riley-Ruvalcaba syndrome (BRRS) is a rare overgrowth condition caused by a pathogenic variant in the phosphatase and tensin homolog (PTEN) gene and belongs to a group of disorders called PTEN hamartoma tumor syndrome (PHTS). The diagnosis is often complicated by great phenotypic diversity. Furthermore, to this date treatment options are limited. Here we performed a systematic review using PubMed, Cochrane, and Scopus databases to identify cases of pediatric patients diagnosed with BRRS and summarized information about the clinical presentation, treatment, and long-term patient care. A total of 83 pediatric patients with BRRS were identified. The most common clinical findings were macrocephaly (77%) and developmental disorders (63%). Surgical interventions were the treatment of choice, described in 19 articles. Patient surveillance was proposed in 15 case reports and mostly aimed at periodic cancer screening. Recognition of BRRS clinical symptoms and early referral to a geneticist is important for better disease control and overall prognosis. As targeted treatment is still lacking, symptom relief and long-term surveillance remain the main management strategies.

Cancer susceptibility syndromes confer an increased lifetime risk of cancer and occur due to germline likely-pathogenic or pathogenic variants in a cancer susceptibility gene. Clinical Genetics services advise patients of ways to manage their future cancer risks, often prefaced with uncertainties due to poor understandings of individualised risk. For individuals/couples whose future offspring are at risk of a cancer susceptibility syndrome, different options are available depending on their preferences and circumstances, including prenatal diagnosis and preimplantation genetic testing. This review provides an overview of the most common cancer susceptibility syndromes, available reproductive options and a genetic counselling framework recommended to support individuals/couples in their decision-making. We describe complexities of decision-making involving moderate penetrance and sex-specific variable penetrance genes and explore associated ethical issues arising in this complex area of medicine.

Renal cell carcinoma (RCC) comprises various histologically distinct subtypes, each characterized by specific genetic alterations, necessitating individualized management and treatment strategies for each subtype. An exhaustive search of the PubMed database was conducted without any filters or restrictions. Inclusion criteria encompassed original English articles focusing on molecular mechanisms of kidney cancer. On the other hand, all non-original articles and articles published in any language other than English were excluded. Hereditary kidney cancer represents 5-8% of all kidney cancer cases and is associated with syndromes such as von Hippel-Lindau syndrome, Birt-Hogg-Dubè syndrome, succinate dehydrogenase-deficient renal cell cancer syndrome, tuberous sclerosis complex, hereditary papillary renal cell carcinoma, fumarate hydratase deficiency syndrome, BAP1 tumor predisposition syndrome, and other uncommon hereditary cancer syndromes. These conditions are characterized by distinct genetic mutations and related extra-renal symptoms. The majority of renal cell carcinoma predispositions stem from loss-of-function mutations in tumor suppressor genes. These mutations promote malignant advancement through the somatic inactivation of the remaining allele. This review aims to elucidate the main molecular mechanisms underlying the pathophysiology of major syndromes associated with renal cell carcinoma. By providing a comprehensive overview, it aims to facilitate early diagnosis and to highlight the principal therapeutic options available.

Our understanding of hereditary breast and ovarian cancer has significantly improved over the past two decades. In addition to BRCA1/2, pathogenic variants in several other DNA-repair genes have been shown to increase the risks of breast and ovarian cancer. The magnitude of cancer risk is impacted not only by the gene involved, but also by family history of cancer, polygenic risk scores, and, in certain genes, pathogenic variant type or location. While estimates of breast and ovarian cancer risk associated with pathogenic variants are available, these are predominantly based on studies of high-risk populations with young age at diagnosis of cancer, multiple primary cancers, or family history of cancer. More recently, breast cancer risk for germline pathogenic variant carriers has been estimated from population-based studies. Here, we provide a review of the field of germline genetic testing and risk evaluation for hereditary breast and ovarian cancers in high-risk and population-based settings.

In a subset of patients with renal tumours, multiple primary lesions may occur. Predisposition to multiple primary renal tumours (MPRT) is a well-recognised feature of some inherited renal cancer syndromes. The diagnosis of MPRT should therefore provoke a thorough assessment for clinical and genetic evidence of disorders associated with predisposition to renal tumourigenesis. To better define the clinical and genetic characteristics of MPRT, a systematic literature review was performed for publications up to 3 April 2024. A total of 7689 patients from 467 articles were identified with MPRT. Compared to all patients with renal cell carcinoma (RCC), patients with MPRT were more likely to be male (71.8% versus 63%) and have an earlier age at diagnosis (<46 years, 32.4% versus 19%). In 61.1% of cases MPRT were synchronous. The proportion of cases with similar histology and the proportion of cases with multiple papillary renal cell carcinoma (RCC) (16.1%) were higher than expected. In total, 14.9% of patients with MPRT had a family history of cancer or were diagnosed with a hereditary RCC associated syndrome with von Hippel-Lindau (VHL) disease being the most common one (69.7%), followed by Birt-Hogg-Dubé (BHD) syndrome (14.2%). Individuals with a known or likely genetic cause were, on average, younger (43.9 years versus 57.1 years). In rare cases intrarenal metastatic RCC can phenocopy MPRT. We review potential genetic causes of MPRT and their implications for management, suggest an approach to genetic testing for individuals presenting with MPRT and considerations in cases in which routine germline genetic testing does not provide a diagnosis.

Background: Non-melanocytic benign skin tumours encompass a diverse group of lesions, classified based on their cellular origin, such as epidermal, vascular, fibrous, neural, muscle, and adnexal tumours. Though they often reveal solitary lesions, multiple skin tumours focus on genodermatoses. Each syndrome exhibits distinct clinical characteristics and potential complications, including cutaneous and extra-cutaneous malignancies, some of which are potentially life-threatening. Diagnosing genetic syndromes is complex and requires numerous histopathological and immunohistochemistry tests due to similarities between the adnexal tumours and basal cell carcinoma upon pathology. Methods: To illustrate the clinical practice, we conducted a retrospective case study that included eleven patients with genodermatoses referred to a tertiary dermatology clinic from September 2018 to April 2024. We have also conducted a research study on available treatment modalities in this setting. Results: Five patients with excellent aesthetic results were treated using a recently approved FDA plasma device. After searching SCOPUS and PubMed database records, we assessed 96 original articles to present current knowledge regarding the dermato-surgical approach. Conclusions: Multiple skin tumours, especially on the face, may significantly affect patients' quality of life and have psychological consequences. An appropriate treatment selection tailored to the patient's needs should be provided. There is no standardised treatment for multiple benign tumours in genodermatoses, and selected methods with varying efficacy are employed. We presented the utility of a new plasma device in these settings.

Hereditary breast cancers are manifested by pathogenic and likely pathogenic genetic mutations. Penetrance expresses the breast cancer risk associated with these genetic mutations. Although BRCA1/2 are the most widely known genetic mutations associated with breast cancer, numerous additional genes demonstrate high and moderate penetrance for breast cancer. This review describes current genetic testing, details the specific high and moderate penetrance genes for breast cancer and reviews the current approach to screening for breast cancer in patients with these genetic mutations.

The PI3K/AKT/mTOR signalling pathway is one of the most frequently activated pathways in breast cancer and also plays a central role in the regulation of several physiologic functions. There are major efforts ongoing to exploit precision medicine by developing inhibitors that target the three kinases (PI3K, AKT, and mTOR). Although multiple compounds have been developed, at present, there are just three inhibitors approved to target this pathway in patients with advanced ER-positive, HER2-negative breast cancer: everolimus (mTOR inhibitor), alpelisib (PIK3CA inhibitor), and capivasertib (AKT inhibitor). Like most targeted cancer drugs, resistance poses a major problem in the clinical setting and is a factor that has frequently limited the overall efficacy of these agents. Drug resistance can be categorised into intrinsic or acquired resistance depending on the timeframe it has developed within. Whereas intrinsic resistance exists prior to a specific treatment, acquired resistance is induced by a therapy. The majority of patients with ER-positive, HER2-negative advanced breast cancer will likely be offered an inhibitor of the PI3K/AKT/mTOR pathway at some point in their cancer journey, with the options available depending on the approval criteria in place and the cancer's mutation status. Within this large cohort of patients, it is likely that most will develop resistance at some point, which makes this an area of interest and an unmet need at present. Herein, we review the common mechanisms of resistance to agents that target the PI3K/AKT/mTOR signalling pathway, elaborate on current management approaches, and discuss ongoing clinical trials attempting to mitigate this significant issue. We highlight the need for additional studies into AKT1 inhibitor resistance in particular.

In this editorial, I commented on the paper by Lin et al, published in this issue of the World Journal of Gastrointestinal Oncology. The work aimed at analysing the clinicopathologic characteristics and prognosis of synchronous and metachronous cancers in patients with dual primary gastric and colorectal cancer (CRC). The authors concluded the necessity for regular surveillance for metachronous cancer during postoperative follow-up and reported the prognosis is influenced by the gastric cancer (GC) stage rather than the CRC stage. Although surveillance was recommended in the conclusion, the authors did not explore this area in their study and did not include tests used for such surveillance. This editorial focuses on the most characterized gastrointestinal cancer susceptibility syndromes concerning dual gastric and CRCs. These include hereditary diffuse GC, familial adenomatous polyposis, hereditary nonpolyposis colon cancer, Lynch syndrome, and three major hamartomatous polyposis syndromes associated with CRC and GC, namely Peutz-Jeghers syndrome, juvenile polyposis syndrome, and PTEN hamartoma syndrome. Careful assessment of these syndromes/conditions, including inheritance, risk of gastric and colorectal or other cancer development, genetic mutations and recommended genetic investigations, is crucial for optimum management of these patients.

Paediatric hepatocellular carcinomas (HCC) traditionally arise in the context of a normal structural and functional liver and carry a dismal prognosis. While chemotherapy is the frontline standard, there is emerging interest in the study of immunotherapies for paediatric patients with relapsed/refractory disease. There is limited data to support whether immunotherapies will be of utility in this patient population.

Six paediatric patients (median age:16 years, range: 12-17 at the time of treatment) with advanced hepatocellular neosplams, either conventional hepatocellular or fibrolamellar carcinoma, were treated with immunotherapy. Patients were consented to institutional genomic profiling and biobanking protocols. Baseline samples and serial tissue samples, when available, were evaluated for somatic mutation rate, actionable gene mutations, and pan-immune bulk RNA expression profiling. Results were correlated with clinical course.

Three patients responded to checkpoint inhibition: one achieved a complete, durable response and the other two, prolonged stable disease. Three additional patients progressed. Diagnostic tissue from the complete responder demonstrated a higher relative mutational burden and robust immune infiltrate. Pre-treatment samples from the three responders demonstrated decreased expression of genes associated with T-cell dysfunction.

A subset of patients with primary paediatric hepatocellular tumours will respond to immunotherapy. Immunotherapies are currently under prospective study for relapsed/refractory liver tumours in paediatric patients. Results from this report support the prospective collection of serial serum and tissue samples which may further identify genomic and immunophenotypic patterns predictive of response.

This work was supported by Philanthropic funds (Pan Mass Challenge, Team Angus and Team Perspective).

PTEN-related hamartoma tumor syndrome results from a mutation in the PTEN gene located at 10q23.31. This syndrome represents a spectrum of different phenotypes of variable expressions, now recognized as part of the same condition. Patients with this mutation have an increased risk of developing a wide range of findings, including malignancies. Although widely described in adults, there are no large series describing the imaging findings in patients before adulthood. Knowledge of the findings seen in children and adolescents with PTEN-related hamartoma tumor syndrome can help guide further management and improve surveillance recommendations.

To describe the spectrum of imaging abnormalities in pediatric patients with PTEN-related hamartoma tumor syndrome.

We performed a retrospective, cross-sectional, multicenter study conducted between January 2000 and October 2021 in three tertiary pediatric institutions evaluating the imaging findings in children and adolescents (≤ 18 years) with confirmed diagnoses of a PTEN mutation. For each patient, the imaging findings, histopathology reports, and at least a 2-year follow-up of clinical outcomes for non-operative cases were documented.

The cohort included 78 children (37 girls), with a mean age at diagnosis of 7.5 years (range 0 days to 18 years). Benign brain findings included enlarged Virchow-Robin perivascular spaces, white matter changes, developmental venous anomalies, and cerebellar hamartomas. Benign thyroid findings were common, but 5/45 (11.1%) with thyroid abnormalities had a malignant nodule. Soft tissue adipocytic tumors, GI/GU polyps, other soft tissue abnormalities, along with vascular anomalies in various anatomic locations were common.

Brain abnormalities, benign non-vascular soft tissue abnormalities, and vascular anomalies are commonly seen in children and adolescents with PTEN-related hamartoma tumor syndrome. However, malignancies involving the thyroid gland are not uncommon. Familiarity with the phenotype of PTEN-related hamartoma tumor syndrome in the pediatric population can improve diagnosis and prompt appropriate clinical surveillance of abnormal findings that warrant further management.

PTEN germline mutations account for ~0.2-1% of all autism spectrum disorder (ASD) cases, as well as ~17% of ASD patients with macrocephaly, making it one of the top ASD-associated risk genes. Individuals with germline PTEN mutations receive the molecular diagnosis of PTEN Hamartoma Tumor Syndrome (PHTS), an inherited cancer predisposition syndrome, about 20-23% of whom are diagnosed with ASD. We generated forebrain organoid cultures from gene-edited isogenic human induced pluripotent stem cells (hiPSCs) harboring a PTENG132D (ASD) or PTENM134R (cancer) mutant allele to model how these mutations interrupt neurodevelopmental processes. Here, we show that the PTENG132D allele disrupts early neuroectoderm formation during the first several days of organoid generation, and results in deficient electrophysiology. While organoids generated from PTENM134R hiPSCs remained morphologically similar to wild-type organoids during this early stage in development, we observed disrupted neuronal differentiation, radial glia positioning, and cortical layering in both PTEN-mutant organoids at the later stage of 72+ days of development. Perifosine, an AKT inhibitor, reduced over-activated AKT and partially corrected the abnormalities in cellular organization observed in PTENG132D organoids. Single cell RNAseq analyses on early-stage organoids revealed that genes related to neural cell fate were decreased in PTENG132D mutant organoids, and AKT inhibition was capable of upregulating gene signatures related to neuronal cell fate and CNS maturation pathways. These findings demonstrate that different PTEN missense mutations can have a profound impact on neurodevelopment at diverse stages which in turn may predispose PHTS individuals to ASD. Further study will shed light on ways to mitigate pathological impact of PTEN mutants on neurodevelopment by stage-specific manipulation of downstream PTEN signaling components.

Breast cancer (BC) is the most common malignancy in women in western countries. A significant part of malignant cases is caused by genetic mutation. Mutations in the gene phosphatase and tensin homologue deleted on chromosome (PTEN) have been proven in various malignancies. The present study was conducted with the aim of investigating the prevalence of BC due to PTEN gene mutation, as well as estimating the chance of developing BC due to the occurrence of PTEN gene mutation. The present study was conducted using a systematic review method based on PRISMA 2020 statements. The search was done in PubMed, Web of Science (WOS), Scopus, and direct scientific databases. The search was performed using the keywords breast cancer, breast malignancy, PTEN, polymorphism, mutation, variant, and their equivalents. Statistical analysis was performed using the second version of Comprehensive Meta-Analysis Software. A total of 2138 articles were collected. After removing duplicate articles, checking the title and abstract, and then checking the full text of the documents, finally 64 articles were approved and entered the systematic review process. Analysis of these studies with a sample size of 231,179 showed the prevalence of breast cancer patients with PTEN mutations. The combined results of 64 studies showed that the prevalence of PTEN mutations has a 3.3 (95% CI 2.2-5) in BC patients, and an analysis of 6 studies showed that the odds ratio of developing BC due to PTEN mutation is 3.7 (95% CI 1.1-11.9). The results of this study show that mutation in the PTEN gene increases the chance of developing BC. However, it was found that a small part of patients gets BC due to the occurrence of mutation in this gene.

It has not been clearly established if skin cancer or melanoma are manifestations of BRCA1 or BRCA2 mutation carrier status. Estimating the risk of skin cancer is an important step towards developing screening recommendations.

We report the findings of a prospective cohort study of 6,207 women from North America who carry BRCA1 or BRCA2 mutations. Women were followed from the date of baseline questionnaire to the diagnosis of skin cancer, to age 80 years, death from any cause, or the date of last follow-up.

During the mean follow-up period of eight years, 3.7% of women with a BRCA1 mutation (133 of 3,623) and 3.8% of women with a BRCA2 mutation (99 of 2,584) reported a diagnosis of skin cancer (including both keratinocyte carcinomas and melanoma). The cumulative risk of all types of skin cancer from age 20 to 80 years was 14.1% for BRCA1 carriers and 10.7% for BRCA2 carriers. The cumulative risk of melanoma was 2.5% for BRCA1 carriers and 2.3% for BRCA2 carriers, compared to 1.5% for women in the general population in the United States. The strongest risk factor for skin cancer was a prior diagnosis of skin cancer.

The risk of non-melanoma skin cancer in women who carry a mutation in BRCA1 or BRCA2 is similar to that of non-carrier women. The risk of melanoma appears to be slightly elevated. We suggest that a referral to a dermatologist or primary care provider for BRCA mutation carriers for annual skin examination and counselling regarding limiting UV exposure, the use of sunscreen and recognizing the early signs of melanoma might be warranted, but further studies are necessary.