The field of rare cancer research is rapidly transforming, marked by significant progress in clinical trials and treatment strategies. Rare cancers, as defined by the National Cancer Institute, occur in fewer than 150 cases per million people each year, yet they collectively represent a significant portion of all cancer diagnoses. Because of their infrequency, these cancers pose distinct challenges for clinical trials, including limited patient populations, geographical dispersion, and a general lack of awareness of treatment options. Economic limitations further complicate drug development, making initiatives such as the Orphan Drug Act essential for incentivizing research. The advent of next-generation sequencing (NGS) and precision medicine has been instrumental in identifying actionable genetic alterations in parallel with an explosion in the development of genomically targeted therapies, immunotherapies, and antibody drug conjugates. Advances in clinical NGS, precision medicine, and tumor-agnostic therapies have become central to the progress in rare cancer research. The development and approval of tumor-agnostic drugs, such as BRAF, NTRK, and RET inhibitors, and immunotherapy for mismatch repair deficient/microsatellite instability-high status cancers highlight the potential of personalized treatments across diverse cancer types and across the age spectrum. Collaborative trials from cooperative groups including SWOG DART, ASCO TAPUR, NCI-MATCH, pediatric COG-match, DRUP, IMPRESS, and innovative registrational basket and platform trials (eg, VE-Basket, ROAR, LIBRETTO-001, ARROW), along with patient advocacy group-run trials like TRACK, are enhancing access to clinical trials. In addition, artificial intelligence has the potential to improve the trial matching process. An integrated approach, combining these innovations in collaboration with multiple stakeholders, is crucial for advancing rare cancer research, offering hope for better patient outcomes and quality of life.

The fifth edition of the WHO classification of haematolymphoid tumours (WHO-HEM5) introduces significant updates to the classification of acute lymphoblastic leukaemia, ALAL (including mixed phenotype acute leukaemia (MPAL)), myeloid/lymphoid neoplasms with eosinophilia and tyrosine kinase gene fusions (MLN-TK), and histiocytic and dendritic cell neoplasms, reflecting the advances in the understanding of the genetic basis of these diseases. This review provides an overview of these changes, highlighting a shift to a more refined molecular-genetic approach. The incorporation of newly recognised genetic subtypes into the classification scheme underscores the evolving landscape of these entities. Challenges in diagnosing ALAL/MPAL and MLN-TK are discussed, along with recent insights into histiocytic and dendritic cell neoplasms, including newly defined entities such as ALK-positive histiocytosis.The review also explores the practical implications of WHO-HEM5, particularly in resource-limited settings, where comprehensive molecular testing may be unavailable. While morphology and immunohistochemistry remain essential diagnostic tools, strategic use of flow cytometry and targeted fluorescence in situ hybridisation can facilitate risk-adapted classification and improve survival in regions with limited resources and therapeutic options. Future large-scale studies are necessary to establish the diagnostic and prognostic value of these newly genetically defined entities for diverse healthcare environments, and to standardise guidelines in refining disease classification and optimising patient outcomes.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is an aggressive and rare hematological malignancy with poor clinical outcomes. Stem cell transplantation helps to achieve long-term survival in adults. However, the benefit of haploidentical stem cell transplantation (HID-SCT) versus chemotherapy is unclear with BPDCN. We retrospectively analyzed 32 patients diagnosed with BPDCN including 15 who underwent HID-SCT and 17 who only received chemotherapy. The median age was 52 (range, 19-78) years. The ratio of male/female was 2.2. Skin, bone marrow and lymph node were the most three common sites of disease involvement. Compared with the chemotherapy group, patients in the HID-SCT group had significantly better progression-free survival (PFS; median, 7 months versus not reached, P < 0.001) and overall survival (OS; median, 13 months versus not reached, P < 0.001). The 4-year rates for PFS and OS in transplant patients were 74% (95% Confidence Interval [CI], 47, 100%) and 93% (79, 100%), respectively, compared to 0 in non-transplant patients. In conclusion, our results demonstrated HID-SCT could provide long-term remissions in BPDCN patients.

Loss of anticancer natural killer (NK) cell function in patients with acute myeloid leukemia (AML) is associated with fatal disease progression and remains poorly understood. Here, we demonstrate that AML blasts isolated from patients rapidly inhibit NK cell function and escape NK cell-mediated killing. Transcriptome analysis of NK cells exposed to AML blasts revealed increased CREM expression and transcriptional activity, indicating enhanced cyclic adenosine monophosphate (cAMP) signaling, confirmed by uniform production of the cAMP-inducing prostanoid prostaglandin E2 (PGE2) by all AML-blast isolates from patients. Phosphoproteome analysis disclosed that PGE2 induced a blockade of lymphocyte-specific protein tyrosine kinase (LCK)-extracellular signal-regulated kinase signaling that is crucial for NK cell activation, indicating a 2-layered escape of AML blasts with low expression of NK cell-activating ligands and inhibition of NK cell signaling. To evaluate the therapeutic potential to target PGE2 inhibition, we combined Fcγ-receptor-mediated activation with the prevention of inhibitory PGE2 signaling. This rescued NK cell function and restored the killing of AML blasts. Thus, we identify the PGE2-LCK signaling axis as the key barrier for NK cell activation in 2-layered immune escape of AML blasts that can be targeted for immune therapy to reconstitute anticancer NK cell immunity in patients with AML.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare and aggressive hematologic malignancy characterized by the overexpression of CD123 and CD303 surface antigens. These molecular markers play a crucial role in diagnosing diseases and developing targeted therapies. Traditional treatment options for BPDCN have demonstrated limited effectiveness, highlighting the need for new and innovative therapeutic strategies. Recent advances in immunotherapy, particularly therapeutic monoclonal antibodies, bispecific T-cell engagers, and CAR T-cell therapy, have provided promising alternatives. Tagraxofusp, the first FDA-approved CD123-targeted therapy, has significantly improved patient outcomes. Additionally, emerging CD303-targeting strategies offer the potential for further advancements. Despite these breakthroughs, challenges such as treatment resistance and toxicity remain. This review explores the latest developments in BPDCN treatment, emphasizing the potential of CD123 and CD303 as targets for precision medicine interventions. The ongoing evolution of targeted immunotherapies holds promise for improving patient survival and redefining treatment paradigms in hematologic malignancies.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare and aggressive hematologic neoplasm that can show clinical, morphologic, and immunophenotypic overlap with acute myeloid leukemia. Myeloid cell nuclear differentiation antigen (MNDA) is a nuclear protein expressed by myelomonocytic cells previously reported to be reliably absent in BPDCN and proposed as a useful adjunct for the distinction of BPDCN and acute myeloid leukemia. We encountered a case of BPDCN that showed strong nuclear expression of MNDA in bone marrow and breast samples and weak to absent expression in skin samples, prompting us to reevaluate the expression of MNDA in BPDCN.

We collected all available BPDCN cases from the Stanford University archives collected in the past 10 years and subjected them to MNDA immunohistochemistry. In select cases, molecular profiling by next-generation sequencing was performed.

We found 4 cases (of 8 total examined [50%]) with convincing site-discordant MNDA expression. This expression was seen in 3 of 6 (50%) bone marrow samples, 1 of 2 (50%) breast soft tissue samples, and 3 of 14 (up to 21%) skin samples and was not obviously predicted by age, sex, history of myeloid neoplasm, or treatment history. In 2 cases, MNDA was strongly expressed in 2 distinct sites (breast/bone marrow, skin/bone marrow) and negative in subsequent samples.

Our findings suggest that MNDA expression in BPDCN is anatomic site dependent and transient, with noncutaneous infiltrates showing more frequent expression than cutaneous infiltrates. These results caution against the use of MNDA to exclude BPDCN when considering the differential diagnosis of a blastic extramedullary infiltrate.

Rare acute leukemia (AL) components or subtypes such as blastic plasmacytoid dendritic cell neoplasm (BPDCN) or early T-cell precursor acute Lymphoblastic Leukemia (ETP-ALL) can be difficult to detect by routine flow cytometry due to their immunophenotypes overlapping with other poorly differentiated AL. We hypothesized that using standardized EuroFlow™ Consortium approach could better diagnose such entities among cases that previously classified as acute myeloid leukemia (AML)-M0, AML with minimal differentiation, AML with myelodysplasia-related changes without further lineage differentiation, and AL of ambiguous lineage. In order to confirm this hypothesis and assess whether these AL subtypes such as BPDCN and ETP-ALL had previously gone undetected, we reanalyzed 49 banked cryopreserved sample cases using standardized EuroFlow™ Consortium panels. We also performed target sequencing to capture the mutational commonalities between these AL subtypes. Reanalysis led to revised or refined diagnoses for 23 cases (47%). Of these, five diagnoses were modified, uncovering 3 ETP-ALL and 2 typical BPDCN cases. In 12 AML cases, a variable proportion of immature plasmacytoid dendritic cell and/or monocytic component was newly identified. In one AML case, we have identified a megakaryoblastic differentiation. Finally, in five acute lymphoblastic leukemia (ALL) cases, we were able to more precisely determine the maturation stage. The application of standardized EuroFlow flow cytometry immunophenotyping improves the diagnostic accuracy of ALs and could impact treatment decisions.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a highly aggressive and rare hematologic malignancy characterized by poor response to multiagent chemotherapy and dismal survival outcomes of 8-16 months. Tagraxofusp, the first-in-class CD123-directed antineoplastic agent, has emerged as a highly effective therapy and is the only FDA approved drug for BPDCN. Nonetheless, significant treatment-related toxicities with tagraxofusp such as hepatotoxicity and capillary leak syndrome are unfortunately not uncommon and can be prohibitive for older or unfit patients. The success of venetoclax (VEN) with a hypomethylating agent (HMA) has recently been described in the literature however, clinical outcomes are limited to case reports and small case series. To confirm these findings, we performed a multicenter, retrospective cohort study utilizing the TriNetX Networks database to compare survival outcomes between BPDCN patients (≥60 years-of-age) who received VEN + HMA versus tagraxofusp. In total, 32 and 39 patients received VEN + HMA and tagraxofusp, respectively, between February 1, 2019 and September 1, 2024. Median follow-up time was 7.4 and 9.3 months in the VEN + HMA and tagraxofusp cohorts, respectively. Overall survival (OS) between VEN + HMA and tagraxofusp-treated patients was comparable at 12-months (41.2% vs. 53%; HR 1.15; 95% CI, 0.53-2.48; P = 0.73). In a subgroup analysis of older adult patients (≥75 years-of-age), OS at 12-months (38.1% vs. 56.5%; HR 1.20; 95% CI, 0.47-3.04; P = 0.71) was not significantly different. In conclusion, this large-scale, retrospective database analysis suggests that VEN + HMA is an effective therapeutic alternative to tagraxofusp in older patients for the management of BPDCN. Future studies are needed to prospectively validate these findings.

Approximately 30% of patients with chronic myelomonocytic leukemia (CMML) undergo transformation to a chemo-refractory blastic phase (BP-CMML). Seeking novel therapeutic approaches, we profiled blast transcriptomes from 42 BP-CMMLs, observing extensive transcriptional heterogeneity and poor alignment to current acute myeloid leukemia (AML) classifications. BP-CMMLs display distinctive transcriptomic profiles, including enrichment for quiescence and variability in drug response signatures. Integrating clinical, immunophenotype, and transcriptome parameters, Random Forest unsupervised clustering distinguishes immature and mature subtypes characterized by differential expression of transcriptional modules, oncogenes, apoptotic regulators, and patterns of surface marker expression. Subtypes differ in predicted response to AML drugs, validated ex vivo in primary samples. Iteratively refined stratification resolves a classification structure comprising five subtypes along a maturation spectrum, predictive of response to novel agents including consistent patterns for receptor tyrosine kinase (RTK), cyclin-dependent kinase (CDK), mechanistic target of rapamycin (MTOR), and mitogen-activated protein kinase (MAPK) inhibitors. Finally, we generate a prototype decision tree to stratify BP-CMML with high specificity and sensitivity, requiring validation but with potential clinical applicability to guide personalized drug selection for improved outcomes.

Historically, treatment options for blastic plasmacytoid dendritic cell neoplasm (BPDCN) were limited to conventional chemotherapy, adopted from regimens used to treat acute myeloid or acute lymphoblastic leukemias, or lymphomas. Nowadays, a novel therapy targeting CD123 is available to treat BPDCN. Yet, regardless of treatment choice, achieving a first complete remission represents the main goal of therapy, because it represents the best opportunity to prolong survival in BPDCN, if offered an allogeneic hematopoietic cell transplant (allo-HCT) as consolidative therapy. Although no specific conditioning regimen is considered standard of care in allo-HCT-eligible patients, recent data from 2 large registries reported a survival advantage when offering total body irradiation-based myeloablative conditioning (MAC) regimens. Unfortunately, applicability of MAC regimens is not feasible in patients who are older/unfit, which represents a considerable proportion of patients presenting worldwide. In such cases, reduced intensity conditioning regimens represent the next best option. Autologous HCT could be considered in patients who are older/unfit who did not have bone marrow involvement at initial presentation and at time of the procedure, albeit data supporting this option are less abundant. Future research is needed to decipher the interplay between clinical, genetic, and molecular features of the disease to personalize treatment accordingly, by enhancing efficacy and avoiding unnecessary toxicities.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare and aggressive hematodermic neoplasm usually involving the skin. In this retrospective case series, 10 cases of BPDCN were identified, 90% of which had skin involvement and exhibited predominantly violaceous nodules and/or bruise-like plaques. Skin lesions showed diffuse or nodular dermal-based infiltrates of intermediate sized blasts with a grenz zone. Tumor immunophenotyping was CD4(+), CD56(+), CD123(+) and CD303(+). The most frequently mutated genes according to targeted next-generation sequencing were TET2 (3/7) and NRAS (2/7). Multiagent chemotherapy (CT) was administered as first-line therapy, and a total of 5 patients underwent allogenic hematopoietic stem cell transplantation (allo-HSCT). Better outcomes were observed in younger patients and those treated with acute lymphoblastic leukemia (ALL)-like CT followed by allo-HSCT. This study shows the clinical range of cutaneous lesions of BPDCN. Despite the absence of a gold standard therapy, patients treated with myeloablative intensive regimens and allo-HSCT seems to have a more favorable prognosis.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare and aggressive hematodermic neoplasm usually involving the skin. In this retrospective case series, 10 cases of BPDCN were identified, 90% of which had skin involvement and exhibited predominantly violaceous nodules and/or bruise-like plaques. Skin lesions showed diffuse or nodular dermal-based infiltrates of intermediate sized blasts with a Grenz zone. Tumor immunophenotyping was CD4(+), CD56(+), CD123(+) and CD303(+). The most frequently mutated genes according to targeted next-generation sequencing were TET2 (3/7) and NRAS (2/7). Multiagent chemotherapy (CT) was administered as first-line therapy, and a total of 5 patients underwent allogenic hematopoietic stem cell transplantation (allo-HSCT). Better outcomes were observed in younger patients and those treated with acute lymphoblastic leukemia (ALL)-like CT followed by allo-HSCT. This study shows the clinical range of cutaneous lesions of BPDCN. Despite the absence of a gold standard therapy, patients treated with myeloablative intensive regimens and allo-HSCT seems to have a more favorable prognosis.

High-risk myeloid neoplasms encompass a group of hematologic malignancies known to cause significant cytopenias, which are accompanied by the risk of end-organ damage. They tend to have an aggressive clinical course and limit life expectancy in the absence of effective treatments. The adoption of precision medicine approaches has been limited by substantive diversity in somatic mutations, limited fraction of patients with targetable genetic lesions, and the prolonged turnaround times of pertinent genetic tests. Efforts to incorporate targeted agents into first-line treatment, rapidly determine pre-treatment molecular or cytogenetic aberrations, and evaluate functional vulnerabilities ex vivo hold promise for advancing the use of precision medicine in these malignancies. Given the relative accessibility of malignant cells from blood and bone marrow, precision medicine strategies hold great potential to shape future standard-of-care approaches to patients with high-risk myeloid malignancies. This review aims to summarize the development of the targeted therapies currently available to treat these blood cancers, most notably acute myeloid leukemia, and also evaluate future opportunities and challenges related to the integration of personalized approaches.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a very rare disease, with unique diagnostic challenges and often dismal outcome. There are no widely accepted treatment guidelines available. Lymphoma-like regimens with or without autologous or allogenic transplantation were the cornerstone of most therapeutic concepts. A few years ago, the CD123-directed immunoconjugate tagraxofusp emerged as a new valuable treatment option. The goal of our research was to collect available data on BPDCN-patients treated at large centres in Switzerland and worldwide and to draw conclusions regarding the incidence, clinical presentation, prognostic factors and therapeutic strategies.

We collected data from BPDCN patients from leading Swiss haemato-oncology centres from 2005 to 2022. Furthermore, we reviewed and analysed the published literature (cohorts and case reports in peer-reviewed journals) from 1997 to 2020 (structured review of the literature).

We identified 115 international publications including 600 patients from all over the world. Most of them had very small sample sizes (only ten papers with more than ten patients) and all but one were retrospective or observational respectively. Most included patients were Europeans (n = 385, 64%) and Asians (n = 120, 20%), followed by Americans (n = 90, 15%) and patients from Australia/New Zealand (n = 3) and Africa (n = 2). BPDCN was more common in men with a predominance of 3:1. The median age (n = 414) at diagnosis was 66.5 years ranging from one month to 103 years. Newly diagnosed women were significantly younger than men (median: 62 vs 67 years, mean: 53.4 vs 59.3 years, p = 0.027) and less often had bone marrow infiltration and affected lymph nodes. Upfront allogenic transplantation as well as ALL regimens performed best, with response to first-line therapy clearly associated with better overall survival. The Swiss cohort contained 26 patients (23 males and 3 females) over 18 years (2005-2022). The median age at diagnosis was 68.5 years (range: 20-83). Ten patients underwent upfront stem cell transplantation (seven allogenic and three autologous), at least trending towards a better overall survival than other therapies. With a follow-up of 8 years, the median overall survival was 1.2 years. Eight patients in this cohort were treated with tagraxofusp, which became available in 2020 and was approved by Swissmedic in 2023.

Our study confirms that BPDCN is a very rare and difficult-to-treat disease. Underdiagnosis and underreporting in the literature pose further challenges. Symptoms at presentation seem to differ slightly between sexes and reaching a complete remission after first-line treatment remains crucial for a prolonged overall survival. Effective treatment protocols in first line include transplantation regimens (mainly allogenic, potentially also autologous) as well as ALL protocols. In order to understand the significance of tagraxofusp as a bridge to transplant or as a continuous monotherapy in elderly patients, further evaluation with longer follow-up periods is required. In general, analysis of the Swiss patients confirmed the results from the worldwide cohort.

Cytokines are proteins used by immune cells to communicate with each other and with cells in their environment. The pleiotropic effects of cytokine networks are determined by which cells express cytokines and which cells express cytokine receptors, with downstream outcomes that can differ based on cell type and environmental cues. Certain cytokines, such as interferon (IFN)-γ, have been clearly linked to anti-tumor immunity, while others, such as the innate inflammatory cytokines, promote oncogenesis. Here we provide an overview of the functional roles of cytokines in the tumor microenvironment. Although we have a sophisticated understanding of cytokine networks, therapeutically targeting cytokine pathways in cancer has been challenging. We discuss current progress in cytokine blockade, cytokine-based therapies, and engineered cytokine therapeutics as emerging cancer treatments of interest.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare hematologic malignancy composed of immature cells that exhibit plasmacytoid dendritic cell (pDC) differentiation. The diagnosis of BPDCN is often challenging due to its rarity and morphologic and phenotypic overlap with other hematologic malignancies, such as acute myeloid leukemia (AML). The emergence of tagraxofusp, a CD123-directed cytotoxin, and other novel therapies has underscored the importance of accurately diagnosing BPDCN. This review initially outlined the clinical and histopathological features of BPDCN, including patients with immunoblastoid morphology. Various proposed diagnostic criteria based on flow cytometry and immunohistochemistry findings were presented, highlighting critical points of caution in the diagnostic process. Strategies for detecting minimal residual disease or microinvasion in BPDCN, a significant clinical issue, were also discussed. Additionally, we reviewed the recurrent 8q24 (MYC) and MYB rearrangements observed in BPDCN, which can aid in diagnosis. Furthermore, we explored mature plasmacytoid dendritic cell proliferation (MPDCP) associated with myeloid neoplasm, which is characterized by a clonal proliferation of pDCs in cases with a defined myeloid neoplasm and may also serve as a potential differential diagnosis for BPDCN. Lastly, we discussed pDC-AML, characterized by pDC proliferation in AML cases, which can also be part of MPDCP and is often associated with frequent RUNX1 mutations. Overall, this review provides insights into BPDCN diagnosis and highlights the current challenges in its detection and differential diagnosis.

Classification of acute leukemia involves assigning lineage by resemblance of blasts to normal progenitor cells. This approach provides descriptive information that is useful for disease monitoring, provides clues to pathogenesis, and can help to select effective chemotherapeutic regimens. Acute leukemias of ambiguous lineage (ALAL) are those leukemias that either fail to show evidence of myeloid, B-lymphoid, or T-lymphoid lineage commitment or show evidence of commitment to more than 1 lineage, including mixed-phenotype acute leukemia (MPAL). The different treatment regimens for acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) make ALAL a challenge both diagnostically and therapeutically. Current classification criteria have reduced the reported incidence of mixed lineage leukemias by emphasizing fewer markers and categorizing some biphenotypic leukemias with recurrent cytogenetic abnormalities as other entities. Several recent studies have explored the genomic and epigenetic landscape of MPAL and emphasize the genomic heterogeneity of MPAL. Two classification proposals of myeloid malignancies recently been published and include International Consensus Classification and fifth edition of the World Health Organization Classification of Haematolymphoid Tumours. Our review aims to discuss the diagnostic challenges in the setting of classification updates, recent genomic studies, and therapeutic strategies in this poorly understood disease.

The emergence of blastic plasmacytoid dendritic cell neoplasm (BPDCN) as its own distinct entity within the pantheon of hematologic malignancies is due to the growing understanding of its unique multiorgan clinical presentation and characteristic skin lesions. The occurrence of BPDCN is generally heralded by a multicompartmental presentation of violaceous cutaneous lesions, involvement by bone marrow and/or blood, lymph node invasion, and an inclination toward extramedullary organ involvement, including, most remarkably, central nervous system (CNS)/cerebrospinal fluid positivity. With a median age historically of ≥ 70 years and up to 5:1 male predominance in most of the field's earlier studies, the most notable development in the modern era is the recognition of emerging important groups with BPDCN, such as female, pediatric, and adolescent/young adult patients; CNS + BPDCN patients; and an increasing number of cases being diagnosed worldwide. These trends are in line with the increased educational and research efforts, greater international collaboration, and markedly improved diagnostic tools and clinical approaches among hematology/oncology, hematopathology, dermatology, and dermatopathology teams around the world. Now, with over 5 years since the first commercially approved targeted agent specifically dedicated for BPDCN, the CD123-targeted agent tagraxofusp, improvements have been demonstrated particularly in the frontline setting for patients with BPDCN. The field is abundant with hope, as it has experienced advancements including greater molecular characterization, expanded identification of potential targets for therapy beyond CD123, advent of combination therapies, improving parameters for stem cell transplantation, and novel clinical trials specifically available for patients with BPDCN.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a clinically aggressive hematologic malignancy derived from plasmacytoid dendritic cells. It commonly presents as cutaneous lesions. To date, no standard treatment protocol for BPDCN exists. Traditionally treated similarly to acute leukemia or lymphoma, its prognosis remains poor. Radiation therapy is employed for isolated skin lesions, for patients that are ineligible for chemotherapy due to age or comorbidities and for post-chemotherapy recurrence. However, very limited reports are available on radiotherapy for BPDCN. We present a case involving a 94-year-old BPDCN patient treated with radiation therapy, highlighting an atypical situation of two separate radiotherapy sessions with different dosages for isolated skin lesions. Initially, 45 Gy was administered in 15 fractions (45 Gy/15 Fr), followed by a second session of 30 Gy in 10 fractions (30 Gy/10 Fr) after disease recurrence. This case is unique in detailing radiation therapy for the exceedingly rare BPDCN, particularly dose fractionation. The findings indicate that 45 Gy/15 Fr can provide adequate local control, while even a lower dose of 30 Gy/10 Fr may be effective. This case report contributes to the limited literature by proposing potential therapeutic approaches and dosage guidelines to refine future BPDCN treatment protocols.

We specifically discuss the mechanisms of the pathogenesis, diagnosis, and management of blastic plasmacytoid dendritic cell neoplasm (BPDCN), a rare but aggressive haematologic malignancy characterized by frequent skin manifestations and systemic dissemination. The article enriches our understanding of BPDCN through detailed case reports showing the clinical, immunophenotypic, and histopathological features that are critical for diagnosing this disease. These cases highlight the essential role of pathologists in employing advanced immunophenotyping techniques to accurately identify the disease early in its course and guide treatment decisions. Furthermore, we explore the implications of these findings for management strategies, emphasizing the use of targeted therapies such as tagraxofusp and the potential of allogeneic haematopoietic stem cell transplantation in achieving remission. The editorial underscores the importance of interdisciplinary approaches in managing BPDCN, pointing towards a future where precision medicine could significantly improve patient outcomes.

Blastic Plasmacytoid Dendritic Cell Neoplasm (BPDCN) is a rare and often life-threatening complex hematologic malignancy that can commonly infiltrate the skin, lymph nodes, central nervous system, and bone marrow. In the setting of the infrequency of confirmed diagnoses of BPDCN, and given limited prospective studies, it has been associated with lackluster outcomes with a median overall survival between 9 and 23 months. We herein discuss our experience treating five consecutive patients with BPDCN at our center since the approval of TAG. We also present some of the challenges that face oncology providers treating this disease due to exceptional rarity and aggressive nature of this disease in addition to overall limited experience and effective therapies.

2017 blood pressure (BP) categories focus on cardiac risk. We hypothesize that studying the balance between mechanisms that increase or decrease BP across the medical phenome will lead to new insights. We devised a classifier that uses BP measures to assign individuals to mutually exclusive categories centered in the upper (Htn), lower (Hotn) and middle (Naf) zones of the BP spectrum; and examined the epidemiologic and phenotypic patterns of these BP-categories.

We classified a cohort of 832,560 deidentified electronic health records by BP-category; compared the frequency of BP-categories and four subtypes of Htn and Hotn by sex and age-decade; visualized the distributions of systolic, diastolic, mean arterial and pulse pressures stratified by BP-category; and ran Phenome-wide Association Studies (PheWAS) for Htn and Hotn. We paired knowledgebases for hypertension and hypotension and computed aggregate knowledgebase status (KB-status) indicating known associations. We assessed alignment of PheWAS results with KB-status for phecodes in the knowledgebase, and paired PheWAS correlations with KB-status to surface phenotypic patterns.

BP-categories represent distinct distributions within the multimodal distributions of systolic and diastolic pressure. They are centered in the upper, lower, and middle zones of mean arterial pressure and provide a different signal than pulse pressure. For phecodes in the knowledgebase, 85% of positive correlations align with KB-status. Phenotypic patterns for Htn and Hotn overlap for several phecodes and are separate for others. Our analysis suggests five candidates for hypothesis testing research, two where the prevalence of the association with Htn or Hotn may be under appreciated, three where mechanisms that increase and decrease blood pressure may be affecting one another's expression.

PairedPheWAS methods may open a phenome-wide path to disentangling hypertension and chronic hypotension. Our classifier provides a starting point for assigning individuals to BP-categories representing the upper, lower, and middle zones of the BP spectrum. 4.7 % of individuals matching 2017 BP categories for normal, elevated BP or isolated hypertension, have diastolic pressure < 60. Research is needed to fine-tune the classifier, provide external validation, evaluate the clinical significance of diastolic pressure < 60, and test the candidate hypotheses.

The prognosis of children with acute myeloid leukemia (AML) has improved incrementally over the last decades. However, at relapse, overall survival (OS) ∼40% to 50% and is even lower for patients with chemorefractory disease. Effective and less-toxic therapies are urgently needed for these children. In the last years, immune-directed therapies such as chimeric antigen receptor (CAR)-T cells were introduced, which showed outstanding clinical activity against B-cell malignancies. CART therapies are being developed for AML on the basis of the results obtained for other hematologic malignancies. The biggest challenge of CART therapy for AML is to identify a specific target antigen, since antigens expressed in AML cells are usually shared with healthy hematopoietic stem cells. An overview of prospects of CART in pediatric AML, focused on the common antigens targeted by CART in AML that have been tested or are currently under investigation, is provided in this manuscript.

Despite significant progress in the treatment of multiple myeloma (MM), relapsed/refractory patients urgently require more effective therapies. We here describe the discovery, mechanism of action, and preclinical anti-MM activity of engineered toxin body MT-0169, a next-generation immunotoxin comprising a CD38-specific antibody fragment linked to a de-immunized Shiga-like toxin A subunit (SLTA) payload. We show that specific binding of MT-0169 to CD38 on MM cell lines triggers rapid internalization of SLTA, causing cell death via irreversible ribosome inhibition, protein synthesis blockade, and caspase 3/7 activation. In co-culture experiments, bone marrow mesenchymal stromal cells did not induce drug resistance against MT-0169. In the preclinical setting, MT-0169 effectively lysed primary MM cells from newly diagnosed and heavily pretreated MM patients, including those refractory to daratumumab, with minimal toxicity against nonmalignant hematopoietic cells. MM cell lysis showed a significant correlation with their CD38 expression levels but not with cytogenetic risk, tumor load, or number of prior lines of therapy. Finally, MT-0169 showed efficient in vivo anti-MM activity in various mouse xenograft models, including one in which MM cells are grown in a humanized bone marrow-like niche. These findings support clinical investigation of MT-0169 in relapsed/refractory MM patients, including those refractory to CD38-targeting immunotherapies.

This review explores the emerging area of the therapeutic use of antibodies and chimeric antigen receptor (CAR)-T cells for the treatment of acute myeloid leukemia (AML). Through a detailed analysis of the existing literature, this paper highlights the different categories of AML antigens for immunotherapeutic targeting, the most recent applications on antibodies, including bispecific immune cell engagers and CAR-T cells, to the therapy of patients with refractory/relapsing AML The studies performed in AML patients using BisAbs and CAR-T cells have shown that only a limited number of AML patients show sustained responses to these therapies, thus underlying AML heterogeneity as a major challenge. Several studies have addressed the potential mechanisms underlying the resistance of AMLs to antibody-directed immunotherapies. A better understanding of the barriers hampering the successful development of AML immunotherapy is required. However, in spite of the limitations, the studies recently carried out have shown the peculiar sensitivity of some AML subtypes to immunotherapy and have provided the basis for future studies, such as multiplex antigen targeting, which hold the promise of successful development.

Acute myeloid leukemia (AML) is a malignant disease of the blood and bone marrow that is characterized by uncontrolled clonal proliferation of abnormal myeloid progenitor cells. Nucleophosmin 1 (NPM1) gene mutations are the most common genetic abnormality in AML, detectable in blast cells from about one-third of adults with AML. AML NPM1mut is recognized as a separate entity in the World Health Organization classification of AML. Clinical and survival data suggest that patients with this form of AML often have a more favorable prognosis, which may be due to the immunogenicity created by the mutations in the NPM1 protein. Consequently, AML with NPM1mut can be considered an immunogenic subtype of AML. However, the underlying mechanisms of this immunogenicity and associated favorable survival outcomes need to be further investigated. Immune checkpoint molecules, such as the programmed cell death-1 (PD-1) protein and its ligand, PD-L1, play important roles in leukemogenesis through their maintenance of an immunosuppressive tumor microenvironment. Preclinical trials have shown that the use of PD-1/PD-L1 checkpoint inhibitors in solid tumors and lymphoma work best in novel therapy combinations. Patients with AML NPM1mut may be better suited to immunogenic strategies that are based on the inhibition of the PD-1 immune checkpoint pathway than patients without this mutation, suggesting the genetic landscape of patients may also inform best practice for the use of PD-1 inhibitors.

Acute myeloid leukemia (AML) is a common and catastrophic hematological neoplasm with high mortality rates. Conventional therapies, including chemotherapy, hematopoietic stem cell transplantation (HSCT), immune therapy, and targeted agents, have unsatisfactory outcomes for AML patients due to drug toxicity, off-target effects, drug resistance, drug side effects, and AML relapse and refractoriness. These intrinsic limitations of current treatments have promoted the development and application of nanomedicine for more effective and safer leukemia therapy. In this review, the classification of nanoparticles applied in AML therapy, including liposomes, polymersomes, micelles, dendrimers, and inorganic nanoparticles, is reviewed. In addition, various strategies for enhancing therapeutic targetability in nanomedicine, including the use of conjugating ligands, biomimetic-nanotechnology, and bone marrow targeting, which indicates the potential to reverse drug resistance, are discussed. The application of nanomedicine for assisting immunotherapy is also involved. Finally, the advantages and possible challenges of nanomedicine for the transition from the preclinical phase to the clinical phase are discussed.

CD123 "expression" is common in hematological malignancies, including acute lymphoblastic leukemia (ALL). Flotetuzumab is a novel, investigational CD3/CD123 DART®. We conducted a phase 1 study evaluating safety and efficacy of flotetuzumab in relapsed/refractory ALL (Cohort A) and other advanced CD123-positive hematological malignancies (excluding myeloid malignancies) (cohort B). Thirteen patients (9 in Cohort A and 4 in Cohort B) were treated at dose level 1 (500 ng/kg/day) before early closure due to discontinuation of drug development by sponsor. Two dose limiting toxicities (Grade 4 thrombocytopenia and neutropenia) occurred in one patient in Cohort B. Cytokine release syndrome occurred in most patients (85%), all being grade ≤2. Responses only occurred in Cohort B, with a partial response in one patient with Hodgkin's lymphoma and morphological complete remission in the bone marrow in one patient with blastic plasmacytoid dendritic cell neoplasm. In conclusion, flotetuzumab had a manageable safety profile in advanced CD123-positive hematological malignancies.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare and clinically aggressive hematologic malignancy with limited treatment options. Currently, standard treatment strategies include clinical trials; chemotherapy regimens such as hyperfractionated cyclophosphamide, vincristine, doxorubicin, and dexamethasone (HCVAD); and tagraxofusp-erzs (TAG, previously SL-401) which is the first-in-class targeted therapy against CD123. TAG received Food and Drug Administration approval for frontline BPDCN treatment in December 2018 and has increasingly become an alternative to chemotherapy, offering potentially more effective and less toxic options. However, despite promising results, there are still patients who may be resistant to TAG monotherapy and/or who respond but eventually relapse. Herein, we discuss an important patient case of BPDCN treated with TAG and review BPDCN treatment strategies.

Chimeric antigen receptor (CAR) T cells express an extracellular domain consisting of a single-chain fragment variable (scFv) targeting a surface tumor-associated antigen. scFv selection should involve safety profiling with evaluation of the efficacy/toxicity balance, especially when the target antigen also is expressed on healthy cells. Here, to assess differences in terms of efficacy and on-target/off-tumor effects, we generated five different CARs targeting CD123 by substituting only the scFv. In in vitro models, T cells engineered to express three of these five CD123 CARs were effectively cytotoxic on leukemic cells without increasing lysis of monocytes or endothelial cells. Using the IncuCyte system, we confirmed the low cytotoxicity of CD123 CAR T cells on endothelial cells. Hematotoxicity evaluation using progenitor culture and CD34 cell lysis showed that two of the five CD123 CAR T cells were less cytotoxic on hematopoietic stem cells. Using a humanized mouse model, we confirmed that CD123- cells were not eliminated by the CD123 CAR T cells. Two CD123 CAR T cells reduced tumor infiltration and increased the overall survival of mice in three in vivo models of blastic plasmacytoid dendritic cell neoplasm. In an aggressive version of this model, bulk RNA sequencing analysis showed that these CD123 CAR T cells upregulated genes associated with cytotoxicity and activation/exhaustion a few days after the injection. Together, these results emphasize the importance of screening different scFvs for the development of CAR constructs to support selection of cells with the optimal risk-benefit ratio for clinical development.

In their recent paper published in Nature, Luo et al.1 investigate the cancer-cell-intrinsic roles of the PI3Kγ complex in leukemia. Their findings pinpoint PI3Kγ inhibition as a possible novel treatment avenue for a subset of acute leukemias.

The prognosis of patients with acute myeloid leukemia (AML) is limited, especially for elderly or unfit patients not eligible for hematopoietic stem cell (HSC) transplantation. The disease is driven by leukemic stem cells (LSCs), which are characterized by clonal heterogeneity and resistance to conventional therapy. These cells are therefore believed to be a major cause of progression and relapse. We designed MP0533, a multispecific CD3-engaging designed ankyrin repeat protein (DARPin) that can simultaneously bind to three antigens on AML cells (CD33, CD123, and CD70), aiming to enable avidity-driven T cell-mediated killing of AML cells coexpressing at least two of the antigens. In vitro, MP0533 induced selective T cell-mediated killing of AML cell lines, as well as patient-derived AML blasts and LSCs, expressing two or more target antigens, while sparing healthy HSCs, blood, and endothelial cells. The higher selectivity also resulted in markedly lower levels of cytokine release in normal human blood compared to single antigen-targeting T-cell engagers. In xenograft AML mice models, MP0533 induced tumor-localized T-cell activation and cytokine release, leading to complete eradication of the tumors while having no systemic adverse effects. These studies show that the multispecific-targeting strategy used with MP0533 holds promise for improved selectivity toward LSCs and efficacy against clonal heterogeneity, potentially bringing a new therapeutic option to this group of patients with a high unmet need. MP0533 is currently being evaluated in a dose-escalation phase 1 study in patients with relapsed or refractory AML (NCT05673057).