Our previous study has suggested a favorable progression-free survival (PFS) with zanubrutinib over orelabrutinib in patients with relapsed or refractory mantle cell lymphoma (R/R MCL). Here, we conducted an updated analysis to indirectly compare the long-term efficacy between zanubrutinib and orelabrutinib in patients with R/R MCL.

Individual patient data from the zanubrutinib study were adjusted to match the patient population profile of the orelabrutinib study. An unanchored matching-adjusted indirect comparison (MAIC) was performed to adjust for effect modifiers and prognostic variables. The efficacy outcomes included investigator-assessed PFS, overall survival (OS), and overall response rate (ORR). Response evaluations were only computed tomography (CT)-based assessments in the orelabrutinib study, while positron emission tomography (PET)- and CT-based assessment were both performed in the zanubrutinib study. The comparison of PFS assessed by CT between zanubrutinib and orelabrutinib was the primary result.

After matching, the baseline characteristics were balanced between zanubrutinib and orelabrutinib, with an effective sample size of 70 in the zanubrutinib study. PFS assessed by CT was significantly longer in the zanubrutinib study vs. the orelabrutinib study (median PFS, not reached vs. 22.0 months; hazard ratio [HR] 0.54, 95% confidence interval [CI] 0.34-0.86; P = 0.009). With longer follow-up, OS continued to trend favorably for zanubrutinib, with OS rate at 24 months numerically higher (83.7% vs. 74.3%); no statistical difference was observed (HR 0.68, 95% CI 0.36-1.27; P = 0.223). ORR was numerically higher in the zanubrutinib study (85.5% vs. 82.1%; odds ratio 1.28, 95% CI 0.56-2.94; P = 0.556).

MAIC results demonstrated that zanubrutinib had significantly longer PFS compared with orelabrutinib in the treatment of patients with R/R MCL.

Targeting intractable proteins remains a key challenge in drug discovery, as these proteins often lack well-defined binding pockets or possess shallow surfaces not readily addressed by traditional drug design. Covalent chemistry has emerged as a powerful solution for accessing protein sites in difficult to ligand regions. By leveraging activity-based protein profiling (ABPP) and LC-MS/MS technologies, academic groups and industry have identified cysteine-reactive ligands that enable selective targeting of challenging protein sites to modulate previously inaccessible biological pathways. Cysteines within a protein are rare, however, and developing covalent ligands that target additional residues hold great promise for further expanding the ligandable proteome. This review highlights recent advancements in targeting amino acids beyond cysteine binding with an emphasis on tyrosine- and lysine-directed covalent ligands and their applications in chemical biology and therapeutic development. We outline the process of developing covalent ligands using chemical proteomic methodology, highlighting recent successful examples and discuss considerations for future expansion to additional amino acid sites on proteins.

In recent years, targeted therapies have become the standard of care for refractory/relapsed mantle cell lymphoma (MCL). Although the mutational profile of MCL has been extensively studied, there is a lack of understanding of resistance mechanisms and genetic factors that impact the response to novel treatments. Since patients relapsing on targeted treatment experience poor clinical outcomes, understanding the genetic foundation of resistance mechanisms in MCL is essential. In this study, we aimed to scrutinize the copy number profile and clonal dynamics of double-resistant MCL patients treated sequentially with Bruton's tyrosine kinase inhibitor (BTKi) and venetoclax using low-coverage whole genome sequencing (lcWGS). Samples obtained after systemic therapy showed more copy number alterations (CNAs) (p = 0.039; Wilcoxon) compared to samples collected before treatment initiation. Patients showing early progression on BTKi demonstrated CNAs affecting cytobands encompassing the coding regions of NOTCH1, TRAF2, BIRC2, BIRC3, and ATM. A deletion in chromosome 9p21.3 was identified in two out of three venetoclax-resistant patients. For patient MCL2, progressing on ibrutinib but showing venetoclax resistance, a 9p21.3 deletion was found throughout the disease course, with acquired SMARCA4-del(19)(p13.3-q13.11) and DLC1-del(8)(p23.2-q11.1) observed at relapse, highlighting their role in disease progression and therapy resistance. Using lcWGS, an innovative genome-wide approach, this study revealed novel putative primary and acquired resistance mechanisms in BTKi and venetoclax double-resistant MCL patients. © 2025 The Author(s). The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.

Bruton's tyrosine kinase (BTK) is a crucial enzyme in the B cell receptor signaling pathway. It plays a central role in B cell development, maturation, and signaling. This role extends to the survival, proliferation, and migration of malignant B cells, making BTK an intriguing target in the search for therapeutics against B cell malignancies. Our research focused on the discovery of a covalent inhibitor of BTK with good selectivity and potency and a favorable safety profile. We identified compound 22, an imidazo[1,2-b]pyridazine derivative, exhibiting potent BTK inhibition (IC50 1.3 nM) with excellent selectivity across 310 kinases. Compound 22 demonstrated favorable pharmacokinetics and a robust safety profile. In a xenograft model, it significantly inhibited tumor growth, achieving complete tumor regression in 7 out of 10 mice at a dose of 15 mg/kg. This promising preclinical data led to the advancement of compound 22, named TM471-1, into Phase I clinical trials (CXHL2300956).

Bruton's tyrosine kinase (BTK) has been an attractive target in the B-cell malignancies. Significant progress has been achieved in developing effective BTK-targeting small-molecule inhibitors and proteolysis targeting chimeras (PROTACs). Based on noncovalent inhibitor ARQ-531, we previously developed two potent BTK PROTACs 6e and SC-3e, which exhibited poor pharmacokinetic property. Herein, we present our extensive structure-activity relationship (SAR) studies focused on BTK binder, linker and cereblon (CRBN) ligand of SC-3e, resulting in two novel BTK PROTACs FDU28 (compound 25) and FDU73 (compound 27). Compounds 25 and 27 selectively induced rapid and robust degradation of wild type (WT) and C481S mutant BTK in a concentration-, time- and ubiquitin-proteasome system (UPS)-dependent manner without affecting CRBN neo-substrates. Furthermore, compound 27 displayed excellent cell antiproliferative activities, metabolic stability in mouse liver microsomes and improved bioavailability in mice. Overall, 27 is a highly effective and selective BTK degrader that is suitable for in vivo efficacy investigations.

Patients aged ≥50 years with r/r MCL had superior OS and lower nonrelapse mortality 1 year after receiving brexu-cel compared with alloHCT. However, the long-term PFS and OS are similar for both treatments. Individual risk-benefit evaluation is essential to guide optimal treatment decisions.

Mantle cell lymphoma (MCL) is an aggressive subtype of B-cell non-Hodgkin's lymphoma. The applicability of circulating tumor DNA (ctDNA) for predicting treatment response and prognosis in MCL remains underexplored.

This study included 34 MCL patients receiving first-line chemoimmunotherapy. We assessed the ability of plasma ctDNA to detect tumor-specific genetic alterations and explored its potential as a noninvasive biomarker for treatment response and prognosis in MCL.

Commonly mutated genes in MCL included CCND1 (93.5%), ATM (48.4%), KMT2D (25.8%), and TP53 (25.8%). Subgroup analysis of tissue samples showed that CDKN2A mutations (P = 0.028), along with alterations in BCR and TCR signaling (P = 0.004) and the PI3K pathway (P = 0.008), were enriched in the blastoid subtype. ATM mutations (P = 0.041) were more prevalent in MIPI-low patients, while epigenetic chromatin remodeling pathway alterations (P = 0.028) were more common in MIPI-high patients. Plasma ctDNA demonstrated high sensitivity for detecting structural variants (96.6%), followed by mutations (71.3%) and copy number variants (30.0%). 75% of patients exhibited moderate-to-high concordance in detecting genomic variants between plasma and tissue samples. Pretreatment ctDNA levels exhibited high specificity in predicting clinical efficacy but had a suboptimal sensitivity of 68.2%. Higher ctDNA levels were significantly associated with shorter progression-free survival (PFS; P = 0.002) and overall survival (OS; P = 0.009). Additional ctDNA-based genetic features associated with shorter PFS included TP53 (P = 0.002), TRAF2 (P = 0.023), and SMARCA4 (P = 0.023) mutations, while TP53 (P = 0.006) and TERT (P = 0.031) mutations predicted shorter OS. Persistent positive ctDNA in post-treatment plasma samples indicated molecular relapse and poor prognosis, whereas undetectable ctDNA defined a subset of patients with favorable survival outcomes.

This study identified plasma ctDNA as a promising biomarker that noninvasively captures tumor-derived genetic variants associated with treatment response and survival outcomes in MCL, highlighting the clinical value of ctDNA for diagnosis, recurrence prediction, and surveillance monitoring.

With the advances in systemic therapy and radiotherapy, the life expectancy of patients battling cancer has increased. The oculofacial plastic surgeon should be aware of the potential impacts a patient in remission or one being actively treated may pose. The goal of this review is to discuss the considerations a surgeon should have in this patient population.MethodsThe authors performed a computerized search using PubMed, Embase, and Google Scholar. The search terms used were "chemotherapy AND surgery", "immunotherapy AND surgery", "radiotherapy AND surgery", "nutrition AND surgery", "(oculoplastic OR orbit OR eyelid OR lacrimal OR puncta) AND (chemotherapy OR immunotherapy OR radiotherapy)", "(facial OR facial plastic OR oculoplastic) AND (chemotherapy OR immunotherapy OR radiotherapy)", "(cancer OR malignancy) AND surgery", "(cancer OR malignancy) AND (surgery OR surgical) complications", "wound healing AND (cancer OR malignancy)", "infection AND (cancer OR malignancy)", "(bleeding OR blood loss) AND (cancer OR malignancy) AND surgery", "(chemotherapy OR immunotherapy OR radiotherapy) AND wound healing", "(chemotherapy OR immunotherapy OR radiotherapy) AND (bleeding OR blood loss)", "(chemotherapy OR immunotherapy OR radiotherapy) AND infection".ResultsA total of 89 articles, published from 1993 to 2023 in the English language or with English translations were included. Articles published earlier than 2000 were cited for foundational knowledge. References cited in the identified articles were also used to gather further data for the review.Conclusions and RelevancePatients who are being treated for cancer or are undergoing current treatment for cancer require special considerations. Systemic therapies and radiotherapy impact the physiology of patients and the integrity of tissue in ways that significantly impact surgical interventions. It is imperative for the oculofacial plastic surgeon to have a complete understanding on how a previous or current diagnosis of cancer can influence surgical outcomes.

Mantle cell lymphoma (MCL) is a rare, highly invasive non-Hodgkin's lymphoma. The main pathogenesis of MCL is associated with the formation of the IgH/CCND1 fusion gene and nuclear overexpression of cyclin D1, which accelerates the cell cycle, leading to tumorigenesis. The prognosis with current standard chemotherapy is still unsatisfactory. SQSTM1/p62 is a multifunctional adaptor that plays an important role in various tumors. Here, we found that the expression of p62 in MCL tissues was higher than that in hyperplastic lymphadenitis patients. Patients with low p62 expression in MCL cells had better overall survival and progression-free survival rates than those with high expression (p = 0.024 and p = 0.025, respectively). Multivariate Cox analysis indicated that the calculated death risk (hazard ratio [HR]) in patients with high expression levels of p62 increased to 2.742 (95% confidence interval (CI) of 1.268-5.852, p = 0.01), which was higher than those with low levels. Silencing p62 impaired Jeko-1 and Granta519 cell proliferation while downregulating CCND1 mRNA and protein expression, thereby inducing G0/G1 cell cycle arrest. However, silencing p62 does not affect the fusion of IgH and CCND1. Luciferase reporter gene analysis and chromatin immunoprecipitation analysis demonstrated that p62 may regulate CCND1 gene expression through Nrf2. These results provide evidence that p62 can predict poor prognosis in MCL. The precise targeting of p62 therapy reduces the promoting effect of Nrf2 on CCND1, thereby preventing cell cycle progression and effectively inhibiting tumor proliferation. Therefore, p62 may provide a potential target for MCL.

Targeted protein degradation (TPD) aims at reprogramming the target specificity of the ubiquitin-proteasome system, the major cellular protein disposal machinery, to induce selective ubiquitination and degradation of therapeutically relevant proteins. Since its conception over 20 years ago, TPD has gained a lot of attention mainly due to improvements in the design of bifunctional proteolysis targeting chimeras (PROTACs) and understanding the mechanisms underlying molecular glue degraders. Today, PROTACs are on the verge of a first clinical approval and recent structural and mechanistic insights combined with technological leaps promise to unlock the rational design of protein degraders, following the lead of lenalidomide and related clinically approved analogues. At the same time, the TPD universe is expanding at a record speed with the discovery of novel modalities beyond molecular glue degraders and PROTACs. Here we review the recent progress in the field, focusing on newly discovered degrader modalities, the current state of clinical degrader candidates for cancer therapy and upcoming design approaches.

Cellular therapies have been cornerstones of the treatment of mantle cell lymphoma (MCL) for decades and have helped to improve the outcome of this formerly very unfavourable B-cell lymphoma considerably. Current established roles of cellular therapies include autologous hematopoietic cell transplantation (HCT) as part of first-line therapy, chimeric antigen receptor-engineered T-cells (CART) for relapsed/refractory MCL, and allogeneic HCT for settings in which CARTs have failed or are unavailable. Therapeutic innovations have recently entered the MCL treatment landscape and are moving upstream in treatment algorithms, challenging the existing management principles. The purpose of this paper is to give some guidance regarding how to best use cellular therapies in this increasingly complex environment. Due to differences in CART labels, available non-cellular treatment options, and philosophy between the American and the European health systems, we found it reasonable to contrast the American and European perspectives on defined standard scenarios, which are often overlapping but show discrepancies in some important aspects.

Uncovering a drug's mechanism of action and possible adverse effects are critical components in drug discovery and development. Moreover, it provides evidence for why some drugs prove more effective than others and how to design better drugs altogether. Here, we demonstrate the utility of a high-throughput in vitro screening platform along with a comprehensive panel to aid in the characterization of 15 Bruton's tyrosine kinase (BTK) inhibitors that are either approved by the FDA or presently under clinical evaluation. To compare the potency of these drugs, we measured the binding affinity of each to wild-type BTK as well as a clinically relevant resistance mutant of BTK (BTK C481S). In doing so, we discovered a considerable difference in the selectivity and potency of these BTK inhibitors to the wild-type and mutant proteins. Some of this potentially contributes to the adverse effects experienced by patients undergoing therapy using these drugs. Overall, noncovalent BTK inhibitors showed stronger potency for both the wild-type and mutant BTK when compared with that of covalent inhibitors, with the majority demonstrating a higher specificity and less off-target modulation. Additionally, we compared biological outcomes for four of these inhibitors in human cell-based models. As expected, we found different phenotypic profiles for each inhibitor. However, the two noncovalent inhibitors had fewer off-target biological effects when compared with the two covalent inhibitors. This and similar in-depth preclinical characterization of drug candidates can provide critical insights into the efficacy and mechanism of action of a compound that may affect its safety in a clinical setting.

Ibrutinib, widely used in leukemia treatment, has been implicated in sensorineural hearing loss; however, its underlying mechanisms remain unclear.

This study investigated the impact of ibrutinib on hearing using HEI-OC1 cells, cochlear explants and C57BL/6 J mice. We used RNA-sequences analysis to investigate the potential mechanisms of ibrutinib-induced ototoxicity. Mice received ibrutinib and auditory thresholds were assessed via auditory brainstem response testing; to assess the potential protective effects, we co-administered the caspase inhibitor Z-Val-Ala-Asp (OMe)-fluoromethylketone (Z-VAD-FMK) and monitored hearing.

Z-VAD-FMK mitigated ibrutinib-induced hearing loss by inhibiting apoptosis in auditory cells. Ibrutinib exposure resulted in cochlear hair cell (HC) damage and subsequent hearing loss by inhibiting the protein kinase B and G protein-coupled receptor 83 (GPR83) pathways. RNA sequencing suggested that GPR83 protects HCs by modulating autophagy. Z-VAD-FMK application and GPR83 overexpression attenuated ibrutinib-induced cochlear HC apoptosis and auditory decline.

These findings confirm ibrutinib's ototoxicity and highlight the protective role of GPR83 in ibrutinib-induced hearing loss, supporting future clinical investigations into Z-VAD-FMK and GPR83 as interventions for ibrutinib or other chemotherapeutic drug-induced ototoxicity.

Bruton tyrosine kinase (BTK), a non-receptor tyrosine kinase falling within the Tec kinase family, forms an essential part of the B cell receptor (BCR) signaling cascade. It has come to be regarded as a potential drug target for addressing a wide range of diseases, with a particular focus on hematopoietic malignancies and autoimmune disorders related to B lymphocytes. In the present study, by uncovering the binding mechanisms of the inhibitor Orelabrutinib with BTK, we identified four crucial structural elements requisite for the inhibition. Using scaffold hopping strategies, 28 novel derivatives belonging to the tricyclic and pyridine amide series were designed and synthesized from the lead compound Orelabrutinib. The outcomes revealed that 11a and 11k were able to effectively restrain the growth and migration of the tumor cell TMD8 upon comparing their in vitro activities, meriting further examination.

We describe a case of bilateral pseudo-uveitis and secondary glaucoma associated with recurrent mantle cell lymphoma (MCL) that was successfully treated with ibrutinib.

Retrospective case report.

A 75-year-old man presented with uveitis masquerade syndrome while undergoing treatment for MCL with rituximab-bendamustine. Initial ophthalmologic examination revealed pseudohypopyon, iris thickening, and considerable vitreous opacity of both eyes. Evaluation via anterior segment optical coherence tomography revealed iris thickening in both eyes. His best-corrected visual acuities were reduced to 20/28 and 20/2000 on the right eye (OD) and left eye (OS), respectively, and his intraocular pressure (IOP) was elevated at 40 (OD) and 52 (OS) mmHg. The patient had findings suggestive of recurrent MCL, such as skin lesions, hyponatremia, elevated blood lactase dehydrogenase, and the results of the skin biopsy were consistent with the pathological diagnosis of MCL in the bone marrow biopsy that had already been performed. He was diagnosed with MCL recurrence and treated by switching to ibrutinib, a Bruton's tyrosine kinase inhibitor. After 1 week of treatment, all anterior ocular and vitreous lesions disappeared. Moreover, the skin lesions also disappeared, and the blood sample findings improved. On day 11 of treatment, BCVA improved to 20/20 in both eyes and IOP decreased to 8 (OD) and 11 (OS) mmHg. During the study course, CD5 and CD20 positive cells were identified in the anterior chamber of the eyes via flow cytometry, which was consistent with the pathological findings of biopsies.

Ibrutinib may improve recurrent MCL intraocular lesions.

Over the past decade, Bruton's tyrosine kinase (BTK) has emerged as a pivotal therapeutic target for B-cell malignancies and autoimmune diseases, given its essential role in B-cell development and function. Dysregulation of BTK signalling is implicated in a range of hematologic cancers, including Waldenström's macroglobulinaemia (WM), mantle cell lymphoma (MCL), and chronic lymphocytic leukaemia (CLL). The development of BTK inhibitors (BTKIs), starting with ibrutinib, has revolutionized the treatment of these malignancies by inhibiting B-cell receptor (BCR) signalling and inducing apoptosis in malignant B-cells. Despite the impressive clinical efficacy of ibrutinib, challenges such as resistance mutations and off-target effects remain. To address these issues, next-generation BTKIs, including acalabrutinib, orelabrutinib, zanubrutinib, and pirtobrutinib, have been developed, offering improved specificity and reduced toxicity profiles. This review highlights the therapeutic potential of BTK-targeted therapies in treating B-cell malignancies, discusses recent advancements with FDA-approved BTKIs, and explores the latest clinical outcomes from ongoing trials of novel inhibitors.

Mantle cell lymphoma (MCL) is an aggressive B-cell malignancy characterized by t(11;14) and bright CD20 expression. To improve outcomes from single targeted CD19 chimeric antigen receptor (CAR) T cells, we used dual targeted lentiviral anti-CD20/anti-CD19 (LV20.19) CAR T cells as part of a phase I/II clinical trial in relapsed, refractory (R/R) MCL (ClinicalTrials.gov identifier: NCT04186520).

Patients with MCL who had failed two lines of therapy or relapsed post-transplant were eligible. LV20.19 CAR T cells were manufactured on-site via CliniMACS Prodigy using an adaptive 8- to 12-day process to optimize the final CAR product for increased numbers of naïve and stem-cell memory (SCM) like T cells.

Seventeen patients with R/R MCL received a single dose of LV20.19 CAR T cells at 2.5 × 106 cells/kg (phase I = three patients; phase II = 14 patients). The best overall response rate (ORR) was 100% (complete response [CR] = 88%; partial response = 12%) and the phase II efficacy threshold for day-90 CR rate was exceeded. Two patients have relapsed as of the data cutoff and neither the median progression-free survival nor overall survival has been reached with a median follow-up of 15.8 months. Ninety-four percent (n = 16) experienced cytokine release syndrome, all grade 1-2. Eighteen percent (n = 3) had immune effector cell-associated neurotoxicity syndrome in the first 28-days, two with reversible grade 3 toxicity. Three patients had nonrelapse mortality events; all occurred in the setting of ongoing B-cell aplasia. The final LV20.19 CAR products were enriched for higher percentages of T-SCM/T-naïve cells and most patients received CAR T cells within 8 days of apheresis.

In conclusion, we demonstrate that on-site adaptive manufactured LV20.19 CAR T cells are feasible, safe, and efficacious for R/R MCL with best ORR of 100%, a favorable safety profile, and few relapses to date.

α-Cyanoacrylamide derivatives of ibrutinib are reversible inhibitors of Bruton's tyrosine kinase (BTK), an important target in B-cell-mediated cancers. We prepared the methyl derivative 1 as part of a larger study and observed interesting complex isomerization behavior that warranted further investigation. Herein, we characterize the solution-state configurational and conformational behavior of 1 by 1D and 2D temperature-dependent NMR and LC-MS. Synthesis of 1 by various routes leads to mixtures of E and Z configurational isomers about its alkene centered at C-31 and C-32. Isomers (E)-1 and (Z)-1 can be separated by reversed-phase HPLC and are stable at room temperature in solution. Interestingly, each configurational isomer undergoes cis/trans conformational isomerization about their respective acrylamide bonds at N-28 with rates dependent on the alkene configuration at C-31. Further, the configurational integrity of the alkene can be compromised at elevated temperatures. Warming pure (E)-1 affords a mixture of E- and Z-isomers resulting in the same relative ratio as observed in the initial synthesis of the compound, with each again exhibiting conformational isomerization about their amide bonds. Warming pure (Z)-1 affords the same results. Knowledge of the isomerization behavior of α-cyanoacrylamides can inform the synthesis, purification, and utility of this class of molecules.

Over the past decade, treatment recommendations for patients with chronic lymphocytic leukemia (CLL) or small lymphocytic lymphoma (SLL) have shifted from traditional chemoimmunotherapy to targeted therapies. Multiple new therapies are commercially available, and, in many cases, a lack of randomized clinical trial data makes selection of the optimal treatment for each patient challenging. Additionally, many patients continue to receive chemoimmunotherapy in the United States, suggesting a gap between guidelines and real-world practice. The Lymphoma Research Foundation convened a workshop comprising a panel of CLL/SLL experts in the United States to develop consensus recommendations for selection and sequencing of therapies for patients with CLL/SLL in the United States. Herein, the recommendations are compiled for use as a practical clinical guide for treating providers caring for patients with CLL/SLL, which complement existing guidelines by providing a nuanced discussion relating how our panel of CLL/SLL experts in the United States care for patients in a real-world environment.

Mantle cell lymphoma (MCL) is a rare, incurable B-cell non-Hodgkin lymphoma and over half of patients affected are older adults (≥65 years of age). New targeted treatments for MCL have emerged over the past two decades. Nonetheless, MCL-specific death rates for older adults remain elevated compared with younger adults, demonstrating the challenge of treating this population. The older adult population is at risk for overtreatment or undertreatment. Clinicians must be mindful of how to optimize the holistic care of older adults receiving treatment for MCL. Evaluating fitness through a geriatric assessment (GA) is an important step when choosing therapy. The treatment armamentarium includes both chemotherapy and non-chemotherapy options and toxicities must be considered in the context of the patient's GA and proactively managed. Herein, the treatment of MCL in older adults is reviewed and strategies for choosing treatment are offered to assist in treatment decision-making for this challenging population.

Mantle cell lymphoma (MCL) is a subtype of non-Hodgkin lymphoma, often characterized by a pattern of continued relapse after front-line chemoimmunotherapy. Although patients are usually able to regain durable disease control with covalent Bruton's tyrosine kinase inhibitors (cBTKi) at first relapse, it is now appreciated that such responses are often not sustained and the management of such patients represents a significant area of unmet need. There is an imperative to better understand resistance mechanisms and identify high-risk subsets of patients for whom cBTKi responses may be particularly short. Allogeneic stem cell transplant has an established role in appropriate candidates; however, contemporary consensus is to preferentially offer chimeric antigen receptor (CAR) T-cell therapy. In this Review, we consider the available data on both existing and emerging treatment options, including non-covalent BTK inhibitors, bispecific antibodies, antibody-drug conjugates and Bcl-2 inhibitors, and propose a treatment strategy, prioritizing clinical trials where available.

Targeted therapies, consisting of Bruton tyrosine kinase inhibitors (BTKis) or BCL-2 inhibitors, are the mainstay of contemporary treatments for chronic lymphocytic leukemia (CLL). The most common adverse effects (AEs) of BTKis are fatigue, bruising, infection, hematological and cardiovascular AEs. While AEs during treatment are usually mild (grades 1 and 2), grade 3 and 4 AEs have been detected in some patients, necessitating additional medical care and temporary or permanent drug discontinuation. In this review, we analyzed the cardiovascular effects associated with BTKi therapy for CLL and the essential practical aspects of multidisciplinary management of patients who develop cardiovascular toxicity during treatment. We particularly focus on the data and strategies for controlling cardiovascular risks associated with ibrutinib and newer BTKis (acalabrutinib, zanubrutinib and pirtobrutinib), including the development of atrial fibrillation, hypertension, ventricular arrhythmias, sudden death, heart failure, bleeding, and ischemic complications (stroke and myocardial infarction). This review highlights hematological insights underlying cardiotoxicity, an area that has received limited attention in comparison to the predominantly cardiological perspective. This review synthesizes emerging evidence on hematological biomarkers, cardiotoxic mechanisms, and therapeutic interventions, linking hematology and cardiology to enhance understanding and guide comprehensive prevention and management strategies.

Mantle cell lymphoma is still a lymphoma subtype with productive clinical research. Recent published data on Bruton kinase inhibitors have changed the management of patients.

This review summarizes the most important trials evaluating the different treatment options in mantle cell lymphoma in the frontline and the relapsed/refractory setting in young and older patients, focusing on the role of Bruton kinase inhibitors in improving disease outcome and omitting consolidative autologous stem cell transplantation.

Following the results of the TRIANGLE trial, the addition of ibrutinib to the induction and maintenance treatment should be considered and the omission of autologous stem cell transplantation is questionable in all patients. Minimal residual disease is a promising biomarker that would dictate our decision making especially in the maintenance setting. CAR-T cells remain the best option in the relapsed/refractory patients after Brutonkinase inhibitors.

Relapsed or refractory mantle cell lymphoma (R/R MCL) remains difficult to treat, with outcomes dependent on the treatment regimen and remission duration after first-line therapy. Several non-chemotherapeutic regimens are under evaluation in R/R, but few studies report long-term outcomes. In this study, we present the long-term outcomes of the 50 patients treated with ibrutinib, lenalidomide, and rituximab (IR2) in the Nordic Lymphoma Group MCL6 Philemon phase 2 trial. Survival outcomes were compared with a matched cohort from the Swedish MCLcomplete study. After 5 years, 14 patients (28%) remained relapse-free, including one with a TP53 mutation. The median progression-free survival (PFS) was 17.4 months, with the longest PFS of 8.1 years. Thirty-two patients had died, primarily from MCL (72%). Poorer survival was associated with intermediate or high-risk Mantle Cell Lymphoma International Prognostic Index and impaired health-related quality of life (HRQoL). While TP53 mutations (n = 11) did not significantly impact survival, a trend toward poorer outcomes was observed in multivariable Cox regression analyses (PFS hazard ratio: 2.09, 95% confidence interval: 0.95-4.62, p = 0.068). The IR2 regimen demonstrated superior survival compared to the MCLcomplete cohort both before and after matching. In conclusion, this study highlights the role of non-chemotherapeutic agents in R/R MCL and demonstrates the prognostic impact of HRQoL on overall survival. Although IR2 showed initial activity in TP53-mutated patients, it did not completely overcome their poor prognosis. However, the IR2 regimen may serve as a bridge to allogeneic stem cell transplantation or chimeric antigen receptor T-cell therapy.

Proteome-wide profiling has revealed that targeted drugs can have complex protein interaction landscapes. However, it's a challenge to profile drug targets while systematically accounting for the dynamic protein variations that produce populations of multiple proteoforms. We address this problem by combining thermal proteome profiling (TPP) with functional proteoform group detection to refine the target landscape of ibrutinib. In addition to known targets, we implicate additional specific functional proteoform groups linking ibrutinib to mechanisms in immunomodulation and cellular processes like Golgi trafficking, endosomal trafficking, and glycosylation. Further, we identify variability in functional proteoform group profiles in a CLL cohort, linked to treatment status and ex vivo response and resistance. This offers deeper insights into the impacts of functional proteoform groups in a clinical treatment setting and suggests complex biological effects linked to off-target engagement. These results provide a framework for interpreting clinically observed off-target processes and adverse events, highlighting the importance of functional proteoform group-level deconvolution in understanding drug interactions and their functional impacts with potential applications in precision medicine.

Diffuse large B-cell lymphoma (DLBCL) is a common subtype of non-Hodgkin's lymphoma characterized by high malignancy, rapid onset and aggressive clinical behavior. The disease exhibits considerable heterogeneity, which influences clinical and immunophenotypic characteristics, which in turn affect treatment outcomes and prognosis. Recently, targeted therapies have been introduced, offering improved therapeutic efficacy but with risks such as immunosuppression and opportunistic infections.

We report a case of a patient diagnosed with DLBCL who experienced immunosuppression as a result of treatment with rituximab and a Bruton's tyrosine kinase inhibitor, which subsequently led to Strongyloides stercoralis infection.

The patient was diagnosed with S. stercoralis infection, confirmed by appropriate diagnostic tests after the onset of clinical symptoms suggestive of parasitic infection.

The patient was treated with a combination of rituximab and a Bruton's tyrosine kinase inhibitor as part of her DLBCL therapy. Antiparasitic treatment was started after diagnosis of S. stercoralis infection.

The patient's infection was successfully managed with antiparasitic therapy, although the case highlights the need for vigilant monitoring of immunosuppressive therapy in patients with DLBCL due to the risk of opportunistic infections.

This case highlights the potential complications of targeted therapies in DLBCL, particularly the risk of opportunistic infections such as S. stercoralis. It highlights the importance of careful patient monitoring and prompt intervention to effectively manage such infections.

Significant progress in determining the molecular origins and resistance mechanisms of mantle cell lymphoma (MCL) has improved our understanding of the disease's clinical diversity. These factors greatly impact the prognosis of patients with MCL. Given the dynamic alterations in MCL clones and disease evolution, it is crucial to recognize high-risk prognostic factors at diagnosis and relapse. Clinical factors include a high MCL International Prognostic Index score with a high Ki-67 proliferation index, early disease progression within 24 months of first-line treatment, >3 previous lines of therapy at relapse, and an aggressive (blastoid or pleomorphic) histology. Molecular aberrations include dysregulated cyclin D1, an aberrant SOX11-CD70 axis, upregulated Musashi-2, MYC rearrangement, metabolic reprogramming, and epigenetic changes. Other factors that contribute to high-risk MCL include an immune-depleted microenvironment and clone adaptability with complex chromosomal anomalies and somatic mutations in TP53, NSD2, CCND1, CDKN2A, BIRC3, SP140, KMT2D, NFkBIE, SMARCA4, and NOTCH2. Ultra-high-risk MCL is indicated by the coexistence of multiple high-risk prognostic factors in the relapse setting and can portend very short progression-free survival. As MCL treatments advance toward cellular therapies, resistance to anti-CD19 chimeric antigen receptor T-cell therapy is also observed. These findings necessitate revisiting the prognostic impact of high-risk factors, current management strategies, new bi- and trispecific T-cell engagers, combination therapies, novel therapeutic targets, and next-generation clinical trials for patients with high-risk MCL. This article provides a comprehensive update on recognizing and managing high-risk MCL and encompass current practices and future directions.

Mantle cell lymphoma (MCL) is a rare subtype of B-cell non-Hodgkin lymphoma that is clinically characterized by its heterogeneous behavior, with courses ranging from indolent to highly aggressive cases with limited prognosis. Targeted treatment alternatives in first-line and relapse settings are more and more shaping the therapeutic landscape of MCL. The development and implementation of new targeted and immunotherapeutic approaches have already improved outcomes for patients with MCL with refractory or relapsed disease. However, long-term prognosis is still limited, and patients with relapsed/refractory (R/R) disease, especially those failing Bruton tyrosine kinase (BTK) inhibitor treatment, usually have a dismal outcome. This review summarizes the current and emerging treatment options for R/R MCL, focusing on the implementation of combined targeted treatment strategies such as BTK inhibitors and BCL2 inhibitors, as well as immune-therapeutic approaches including chimeric antigen receptor T cells and bispecific antibodies.

Mantle cell lymphoma (MCL) is a rare (5%-7%), aggressive B-cell non-Hodgkin lymphoma with well-defined hallmarks (eg, cyclin D1, SOX11), and its expansion is highly dependent on the tumor microenvironment (TME). Parallel drastic progress in the understanding of lymphomagenesis and improved treatments led to a paradigm shift in this B-cell malignancy with now prolonged disease-free survival after intensive chemotherapy and anti-CD20-based maintenance. However, this toxic strategy is not applicable in frail or older patients, and a small but significant part of the cases present a refractory disease representing unmet medical needs. Importantly, the field has recently seen the rapid emergence of targeted and immune-based strategies with effective combinations relying on biological rationales to overcome malignant plasticity and intratumor heterogeneity. In this review, we expose how unraveling the biology of MCL allows to better understand the therapeutic resistances and to identify neo-vulnerabilities in tumors, which are essential to offer efficient novel strategies for high-risk patients. We first highlight the tumor intrinsic resistance mechanisms and associated Achilles heels within various pathways, such as NF-κB, mitochondrial apoptosis, DNA repair, and epigenetic regulators. We then place the tumor in its complex ecosystem to decipher the dialog with the multiple TME components and show how the resulting protumoral signals could be disrupted with innovative therapeutic strategies. Finally, we discuss how these progresses could be integrated into a personalized approach in MCL.

Immune checkpoint inhibitors (ICIs) have been transformative in the treatment of patients with metastatic melanoma, but primary and secondary resistance to ICI treatment is common. One key mechanism for ICI resistance is the skewing of the immune response from a cytotoxic (Th1) to a chronic inflammatory (Th2) profile. The small molecule ibrutinib is a dual-target agent that inhibits Bruton's Tyrosine Kinase (BTK) and Interleukin-2-inducible T-cell Kinase (ITK), a key regulator of Th2 immunity. Therefore, combining ibrutinib and pembrolizumab could potentially induce an increase in Th1 immune polarity in melanoma patients. We hypothesize that the combination would be well-tolerated and might result in clinical benefit for patients with metastatic melanoma. The primary aim of this phase I study was to evaluate the safety, tolerability, and determine the maximum tolerated dose (MTD) of ibrutinib in combination with pembrolizumab in patients with metastatic melanoma.

A 3 + 3 phase I clinical trial was conducted in patients with unresectable Stage III or metastatic melanoma (stage IV) not amenable to local therapy. Pembrolizumab (200 mg/kg every 3 weeks) was combined with ibrutinib, administered orally at the dose assigned at the time of registration (140 mg daily, 280 mg daily, and 420 mg daily). Patients were treated until disease progression, intolerability, or patient decision to discontinue. Blood samples were collected after each cycle of treatment for immunophenotyping and Th1/Th2 polarity assessment based on immune response markers.

Between January 31, 2017 and January 9, 2023, 17 patients were enrolled. The MTD of ibrutinib in combination with pembrolizumab was determined to be 420 mg daily. The adverse events leading to discontinuation included: grade 4 ALT and AST increase (1 pt, DL0); grade 4 ALT increase with grade 3 AST increase (1 pt, DL1); and grade 3 hyponatremia, hypoxia, and maculo-papular rash (1 pt, DL1). Three of the 16 patients treated had objective responses (2 partial responses, 1 complete response) lasting over 8 months. The median progression-free survival was 3 months, and median and overall survival was 1.8 years. The combination treatment did not result in consistent increase in Th1 immune polarity.

In conclusion, the maximum tolerated dose of ibrutinib in combination with pembrolizumab in patients with advanced or metastatic melanoma was established at 420 mg by mouth once daily. The combination was well-tolerated but did not result in a consistent increase in Th1 immune polarity; further investigation is needed to assess the relative clinical efficacy of this approach. (Funded by Pharmacyclics; ClinicalTrials.gov number: NCT03021460).

www.clinicaltrials.gov, identifier NCT03021460.

Targeted therapies and immunotherapies have shown great promise as best-in-class treatments for several cancers with respect to efficacy and safety. While liver test abnormalities are rather common in patients treated with kinase inhibitors or immunotherapy, events of severe hepatotoxicity in these patients are rare in comparison with those associated with chemotherapeutics. The underlying mechanisms and risk factors for severe hepatotoxicity with novel oncology therapies are not well understood, complicating the drug-induced liver injury (DILI) risk assessment in the preclinical and clinical phases of drug development. The epidemiological and clinical characteristics, as well as mechanisms of liver toxicity, are described here to the current state of knowledge. Tools to study and assess the risk of DILI during drug development are concisely summarised, focusing on caveats thereof for novel oncology treatments. Emerging tools to optimise safety assessments and gather additional mechanistic insights into DILI are introduced. Particularly in oncology, where standard liver signals during drug development are tolerated to a marginally higher degree than in other indications due to the life-saving, life-extending and quality-of-life improvements for patients with severe or advanced cancers versus previous standard-of-care therapeutics, safety assessments must be tailored to the drug and indication. Trends in patient safety-centred drug development programmes and regulatory approval processes must continually be revisited and streamlined via obtaining an overall greater understanding of DILI and the tools available to assess mechanisms of injury, frequency, severity and prognosis.

The combination of ibrutinib and venetoclax leverages complementary mechanisms of action and has shown promising clinical activity in mantle cell lymphoma (MCL). This study evaluated the efficacy and safety of ibrutinib-venetoclax compared with ibrutinib-placebo in patients with relapsed or refractory MCL.

SYMPATICO is a multicentre, randomised, double-blind, placebo-controlled, phase 3 study performed at 84 hospitals in Europe, North America, and Asia-Pacific. Eligible patients were adults (aged ≥18 years) with pathologically confirmed relapsed or refractory MCL after one to five previous lines of therapy and an Eastern Cooperative Oncology Group (ECOG) performance status of 0-2. Patients were randomly assigned (1:1) to receive oral ibrutinib 560 mg once daily concurrently with oral venetoclax (5-week ramp-up to 400 mg once daily) or placebo for 2 years, then single-agent ibrutinib 560 mg once daily until disease progression or unacceptable toxicity. Randomisation and treatment assignment occurred via interactive response technology using a stratified permuted block scheme (block sizes of 2 and 4) with stratification by ECOG performance status, previous lines of therapy, and tumour lysis syndrome risk category. Patients and investigators were masked to treatment assignment. The primary endpoint was investigator-assessed progression-free survival in the intention-to-treat population. Safety was assessed in all patients who received at least one dose of study treatment. This study is registered with ClinicalTrials.gov, NCT03112174, and is closed to enrolment.

Between April 26, 2018, and Aug 28, 2019, 267 patients were enrolled and randomly assigned; 134 to the ibrutinib-venetoclax group and 133 to the ibrutinib-placebo group. 211 (79%) of 267 patients were male and 56 (21%) were female. With a median follow-up of 51·2 months (IQR 48·2-55·3), median progression-free survival was 31·9 months (95% CI 22·8-47·0) in the ibrutinib-venetoclax group and 22·1 months (16·5-29·5) in the ibrutinib-placebo group (hazard ratio 0·65 [95% CI 0·47-0·88]; p=0·0052). The most common grade 3-4 adverse events were neutropenia (42 [31%] of 134 patients in the ibrutinib-venetoclax group vs 14 [11%] of 132 patients in the ibrutinib-placebo group), thrombocytopenia (17 [13%] vs ten [8%]), and pneumonia (16 [12%] vs 14 [11%]). Serious adverse events occurred in 81 (60%) of 134 patients in the ibrutinib-venetoclax group and in 79 (60%) of 132 patients in the ibrutinib-placebo group. Treatment-related deaths occurred in three (2%) of 134 patients in the ibrutinib-venetoclax group (n=1 COVID-19 infection, n=1 cardiac arrest, and n=1 respiratory failure) and in two (2%) of 132 patients in the ibrutinib-placebo group (n=1 cardiac failure and n=1 COVID-19-related pneumonia).

The combination of ibrutinib-venetoclax significantly improved progression-free survival compared with ibrutinib-placebo in patients with relapsed or refractory MCL. The safety profile was consistent with known safety profiles of the individual drugs. These findings suggest a positive benefit-risk profile for ibrutinib-venetoclax treatment.

Pharmacyclics (an AbbVie Company) and Janssen Research and Development.

Brexucabtagene autoleucel (brexu-cel) has revolutionized the treatment of patients affected by mantle cell lymphomas. In this prospective, observational multicentre study, we evaluated 106 patients, with longitudinal brexu-cel kinetics in peripheral blood monitored in 61 of them. Clinical outcomes and toxicities are consistent with previous real-world evidence studies. Notably, beyond established poor prognostic factors-such as blastoid variant and elevated lactate dehydrogenase-Bruton tyrosine-kinase inhibitors (BTKi) refractoriness and platelet count emerged as significant predictors of survival. Specifically, the 1-year overall survival was 56% in BTKi-refractory patients compared to 92% in BTKi-relapsed patients (p = 0.0001). Our study also demonstrated that in-vivo monitoring of brexu-cel expansion is feasible and correlates with progression-free survival and toxicities. Progression-free survival at 1 year was 74% in patients categorized as strong expanders, based on brexu-cel peak concentration, versus 54% in poor expanders (p = 0.02). Furthermore, in-vivo expansion helped identify a high-risk group of non-responders, those with progressive or stable disease at the 90-day post-infusion evaluation (OR = 4.7, 95% CI = 1.1-34, p = 0.04) characterized by dismal outcomes. When integrated with other clinical factors, monitoring brexu-cel expansion could assist in recognizing patients at high risk of early relapse.

Bruton tyrosine kinase (BTK), the primary target of BTK inhibitors, is a key enzyme in the proliferation and survival pathway of neoplastic B-cells. BTK inhibitors are approved in many hematologic malignancies: chronic lymphocytic leukaemia, mantle cell lymphoma, marginal zone lymphoma, Waldenström macroglobulinaemia and follicular lymphoma. Second-generation BTK inhibitors display high target selectivity thus resulting in a reduction in off-target and off-tissue effects, better therapeutic index and improved tolerability. This paper summarizes the mechanisms of action of first and second generation BTK inhibitors and elucidates results in any disease setting, with a precise focus on zanubrutinib.

TP53-mutant mantle cell lymphoma (MCL) is associated with poor survival outcomes with standard chemoimmunotherapy. We conducted a multicenter, phase 2 study of zanubrutinib, obinutuzumab, and venetoclax (BOVen) in untreated patients with MCL with a TP53 mutation. Patients initially received 160 mg zanubrutinib twice daily and obinutuzumab. Obinutuzumab at a dose of 1000 mg was given on cycle 1 day 1, 8, and 15, and on day 1 of cycles 2 to 8. After 2 cycles, venetoclax was added with weekly dose ramp-up to 400 mg daily. After 24 cycles, if patients were in complete remission with undetectable minimal residual disease (uMRD) using an immunosequencing assay, treatment was discontinued. The primary end point was met if ≥11 patients were progression free at 2 years. The study included 25 patients with untreated MCL with a TP53 mutation. The best overall response rate was 96% (24/25) and the complete response rate was 88% (22/25). Frequency of uMRD at a sensitivity level of 1 × 10-5 and uMRD at a sensitivity level of 1 × 10-6 at cycle 13 was 95% (18/19) and 84% (16/19), respectively. With a median follow-up of 28.2 months, the 2-year progression-free, disease-specific, and overall survival were 72%, 91%, and 76%, respectively. Common side effects were generally low grade and included diarrhea (64%), neutropenia (32%), and infusion-related reactions (24%). BOVen was well tolerated and met its primary efficacy end point in TP53-mutant MCL. These data support its use and ongoing evaluation. This trial was registered at www.ClinicalTrials.gov as #NCT03824483.