Search Results (670)

Bruton’s tyrosine kinase (BTK) inhibitors have revolutionized B-cell malignancy treatment but paradoxically increase infection susceptibility. Covalent BTK inhibitors (Ibrutinib, Acalabrutinib, Zanubrutinib) induce sustained BTK blockade but disrupt immune homeostasis through off-target effects on T-cell and myeloid signaling, contributing to hypogammaglobulinemia and increased risk of bacterial, viral, and opportunistic fungal infections. Non-covalent inhibitors (Pirtobrutinib) and emerging BTK degraders offer more selective inhibition, preserving T-cell function and potentially mitigating infection risk, though their long-term immunological impact requires further study. Infection susceptibility varies across BTK inhibitor generations, reflecting differences in kinase selectivity, modulation of humoral and cellular immunity, and disease-intrinsic immune dysfunction in chronic lymphocytic leukemia. This review examines the mechanistic basis of BTK inhibitor-associated immune dysfunction, compares generational differences in selectivity and safety profiles, and provides evidence-based recommendations for infection risk mitigation in clinical practice. Full article

Background: Chronic lymphocytic leukemia (CLL) is a biologically heterogeneous disease characterized by variable clinical outcomes. The introduction of targeted therapies, particularly the BCL-2 inhibitor venetoclax, has significantly improved treatment outcomes in patients with relapsed/refractory (R/R) CLL. However, real-world data on the safety and effectiveness of venetoclax-based regimens remain limited. Methods: In this multicenter retrospective study, 147 adult patients with R/R CLL treated with venetoclax between April 2019 and August 2025 were analyzed. Venetoclax was administered as monotherapy or in combination with rituximab, obinutuzumab, or ibrutinib. Adverse events were graded according to CTCAE v4.0, and treatment responses were assessed based on IWCLL criteria. Survival outcomes, including overall survival (OS) and progression-free survival (PFS), were evaluated using Kaplan–Meier analysis. Results: The median age at venetoclax initiation was 64 years, and patients had received a median of two prior lines of therapy. Combination therapy was administered in 78.9% of patients. The overall response rate was 83.0%, including complete remission in 65.3% of patients. Grade ≥ 3 hematologic adverse events included neutropenia (18.4%), thrombocytopenia (14.3%), and anemia (7.5%). Tumor lysis syndrome (TLS) occurred in 28.6% of patients, predominantly during the dose ramp-up phase. At a median follow-up of 61 months, median OS and PFS were both 60 months. Bulky disease was associated with inferior survival outcomes. Conclusions: Venetoclax-based therapy is effective and well tolerated in patients with R/R CLL in a real-world setting. High response rates and durable survival outcomes were observed despite the inclusion of patients with high-risk clinical and biological features. These findings support the use of venetoclax as a key component of modern CLL treatment strategies and highlight the importance of real-world evidence in optimizing patient management. Full article

Objectives: The genetic architecture of B-cell lymphomas is not fully characterized. We aimed to identify novel candidate variants associated with four common B-cell lymphoma subtypes—diffuse large B-cell lymphoma (DLBCL), follicular lymphoma (FL), chronic lymphocytic leukemia (CLL), and marginal zone lymphoma (MZL)—through cross-trait analyses with correlated idiopathic inflammatory myopathies subtypes, dermatomyositis (DM) and polymyositis (PM). Methods: Leveraging shared genetic susceptibility with DM and PM, we applied a pleiotropy-informed conditional false discovery rate (condFDR) method to recompute nominal single nucleotide polymorphism association p-values for each B-cell lymphoma subtype. Associations were considered significant at condFDR <0.01. Functional annotation was performed using FUMA (Functional Mapping and Annotation of Genome-Wide Association Studies), followed by Gene Ontology (GO) enrichment analysis via clusterProfiler, with similar GO terms clustered for interpretation and visualization. Results: We identified 4, 2, 13, and 6 novel candidate loci for DLBCL, FL, CLL, and MZL, respectively. Most loci exhibited regulatory effects on genes involved in adaptive immune responses and cell death pathways. Notably, for DLBCL locus 1q23.3 affects SLAMF genes implicated in natural killer and lymphocyte activation. A trans-eQTL at 2q13 for FL was associated with BCL11A, a multifunctional oncogene. For CLL, a novel locus at 16q24.1 regulates IRF8, a known CLL risk gene. Functional mapping of previously reported CLL risk loci revealed RIPK1 (6p25.2), linked to necroptosis. No enriched biological pathways were detected for MZL risk-associated genes. Conclusions: These findings advance our understanding of the genetic architecture of four B-cell lymphoma subtypes and aim to inform future genetic and functional studies. Full article

Hematologic malignancies arise and progress within a systemic ecosystem in which the gut microbiota is an increasingly recognized, partially modifiable component. Across acute leukemias, chronic lymphocytic leukemia, plasma cell disorders, lymphomas, and clonal myeloid neoplasms, human studies consistently report reduced microbial diversity, depletion of barrier-supportive, short-chain fatty acid-producing commensals, and enrichment of Gram-negative, pro-inflammatory, or hospital-adapted taxa. These alterations are associated with pre-leukemic clonal expansion, adverse genetic and immunological features, progression from precursor conditions, and inferior outcomes after chemotherapy, immunochemotherapy, chimeric antigen receptor T-cell therapy, and allogeneic hematopoietic stem cell transplantation. Mechanistic work in animal models and ex vivo systems demonstrates that microbiota-derived signals and metabolites—including Th17/IL-17-skewing consortia and the lipopolysaccharide intermediate ADP heptose sensed by the cytosolic receptor ALPK1—can actively modulate hematopoietic stem and progenitor cell fitness, inflammatory circuits, and malignant cell survival, supporting a causal role in disease biology. At the same time, major knowledge gaps remain because most human cohorts are small, single-center, and cross-sectional, frequently rely on 16S rRNA profiling, and are vulnerable to dietary, geographic, and treatment-related confounding. Within this context, three translational domains appear particularly promising: pharmaco-microbiomics, microbiome-informed risk stratification, and rational microbiota-targeted interventions, particularly diet-based strategies and antimicrobial stewardship. Here, we provide an integrated, disease-spanning synthesis of these data, emphasizing clonal hematopoiesis and myeloid neoplasms as emerging examples of microbiota–marrow crosstalk and outlining practical priorities for embedding microbiome science into future hematologic trials. Routine microbiome profiling or empiric microbiota-directed therapies cannot yet be recommended in everyday hematology practice, but integrating microbiome science into prospective therapeutic and transplant trials offers a realistic path to improved disease modeling, biomarker development, and rational adjunctive strategies to enhance outcomes for patients with hematologic malignancies. Full article

The treatment of chronic lymphocytic leukemia (CLL) has significantly shifted from chemoimmunotherapy to targeted therapies like Bruton’s tyrosine kinase and BCL2 inhibitors. Despite these advancements, CLL remains an incurable disease characterized by immune dysregulation, therapeutic resistance, and cumulative toxicities. To overcome these challenges, novel immunotherapeutic strategies are emerging as fundamentally different approaches that target immune–tumor interactions. These innovations include novel monoclonal antibodies, bispecific antibodies that redirect T cell cytotoxicity, chimeric antigen receptor (CAR) T-cell therapies, and natural killer (NK) cell-based platforms. By actively engaging cellular cytotoxicity, these approaches show promise in high-risk and treatment-resistant scenarios where standard pathway inhibition is inadequate. Establishing optimal use, toxicity management, and combination strategies for these cell-engaging immunotherapies is now a critical priority in contemporary CLL research. Full article

The immunosuppression inherent to chronic lymphocytic leukemia (CLL) is the most frequent cause of morbidity and mortality associated with this pathology. Both the innate and adaptive immune responses exhibit marked functional alterations, with a bias towards a tolerant environment that favors the spread of the disease. This condition is reflected in increased risk of infections, immune-mediated cytopenias, and associated second malignancies. Knowledge of these alterations, both in the molecular pathways that modulate T cell activity in CLL (the T lymphocyte cytotoxic antigen-4 (CTLA-4) axis and programmed cell death 1 (PD-1)) and at the T cell immunoreceptor level, could be of interest as therapeutic targets in CLL. In this review, we will analyze the main consequences of this dysfunction and its management strategies. Full article

Backgroundand Objectives: Targeted therapies are increasingly used in the management of chronic lymphocytic leukemia (CLL); however, real-world data from routine clinical practice remain limited. Materials and Methods: We performed a retrospective analysis of 47 patients with CLL who received at least one targeted therapy at a tertiary university hospital. Clinical characteristics, treatment responses, and adverse events were assessed. A total of 58 treatment events were included. Results: Obinutuzumab, ibrutinib, and venetoclax were administered in 34.5%, 46.5%, and 19.0% of treatment events, respectively. Numerically higher response rates were observed in treatment events involving obinutuzumab compared with ibrutinib and venetoclax (92.9% vs. 54.5% and 55.6%, respectively); however, treatment allocation was not randomized and these findings should be interpreted descriptively. Median overall survival from initiation of the first targeted therapy was 30.9 months. Adverse events occurred in more than 80% of treatment events. Neutropenia was more frequent with obinutuzumab and venetoclax, whereas bleeding events were more common with ibrutinib. Conclusions: In this real-world cohort, targeted therapies showed response patterns and safety findings consistent with routine clinical practice. Obinutuzumab was more frequently prescribed in older and more comorbid patients, reflecting treatment patterns rather than comparative superiority. These findings should be considered descriptive and hypothesis-generating, given the retrospective and single-center design. Full article

Chronic lymphocytic leukemia (CLL) exhibits marked clinical heterogeneity that is closely associated with genomic instability. Although cytogenetic abnormalities are widely used for risk stratification, they do not fully capture the biological complexity of the disease. Telomere dysfunction and alterations in DNA damage response pathways have been implicated in disease progression, but their relationship with cytogenetic risk in CLL remains incompletely characterized. In this study, peripheral blood mononuclear cells (PBMCs) from 48 CLL patients were analyzed. The analyzed PBMC fractions were enriched in leukemic B cells, with an estimated median tumor content above 85–90%. Cytogenetic profiles were obtained by conventional karyotyping following in vitro immunostimulation with DSP30 and interleukin-2 and classified according to ERIC and Döhner criteria. Telomere length was assessed by quantitative PCR, and CHEK1 and CHEK2 expression levels were quantified by RT–qPCR. Molecular parameters were compared across cytogenetic risk groups. Distinct molecular profiles were observed across cytogenetic categories. Favorable-risk CLL cases showed preserved telomere length, low CHEK1 expression, and maintained CHEK2 levels. Intermediate-risk cases, predominantly characterized by trisomy 12, exhibited moderate telomere shortening accompanied by increased CHEK1 expression and partial reduction of CHEK2. High-risk CLL cases, defined by del(11q), del(17p), or complex karyotypes, displayed pronounced telomere shortening, marked CHEK1 upregulation, and strong suppression of CHEK2. Telomere length was inversely correlated with cytogenetic risk (Spearman’s ρ = −0.68, p < 0.0001), and the CHEK1/CHEK2 expression ratio increased progressively with genomic complexity. These findings indicate that telomere length and CHEK1/CHEK2 expression patterns are closely associated with cytogenetic risk in CLL and may provide complementary biological information for risk stratification. Full article

Chronic lymphocytic leukemia (CLL) and multiple myeloma (MM) are biologically distinct hematologic malignancies with heterogeneous clinical courses, and minimally invasive molecular biomarkers are needed to support blood-based discrimination. We performed a comprehensive in silico analysis to derive cross-cohort, direction-consistent transcriptomic programs for CLL and MM and to nominate regulatory microRNAs (miRNAs) linked to these signatures. Public gene-expression datasets from the NCBI Gene Expression Omnibus (two cohorts per disease) were processed with a reproducible workflow to define disease-biased consensus gene sets. Experimentally validated miRNA–target interactions from miRTarBase were integrated with consensus genes for miRNA target over-representation analysis, and miRNA–mRNA networks were constructed to prioritize candidate miRNAs by connectivity. A strict intersection strategy yielded a large, direction-consistent CLL consensus program, whereas a vote-based approach produced a smaller MM program due to a weaker signal in one cohort. Enrichment and network analyses identified compact regulatory modules in CLL, including a highly connected candidate miRNA linked to many CLL-up genes. This framework provides reproducible disease-biased gene programs and evidence-anchored miRNA candidates to support targeted experimental validation and the development of hypothesis-driven blood-based biomarker studies for differential diagnosis and monitoring. Full article

Background/Objectives: Chronic lymphocytic leukemia (CLL) is characterized by genetic and epigenetic alterations. This study aimed to assess the methylation status of E-Cadherin and MMP-9 gene promoters and to explore their relationships with disease pathogenesis and hematological parameters in CLL patients. Methods: A case–control study was conducted with 70 newly diagnosed CLL patients and 70 age- and sex-matched healthy controls. Promoter methylation of E-Cadherin and MMP-9 genes was evaluated using methylation-specific PCR (MSP) and methylation-sensitive restriction enzyme PCR (MSRE-PCR), respectively. Results: The median patient age was 62 years, and 68.5% were males. Binet stage A was the most common stage (57.3%). E-Cadherin promoter methylation was detected in 75.7% of CLL patients and 77.1% of controls (p = 0.91), showing no significant association with disease occurrence; however, it showed a significant correlation with higher lymphocyte counts (p = 0.01). In contrast, MMP-9 promoter methylation was significantly less frequent in CLL cases (70.0%) than in controls (100%, p = 0.001). Unmethylated MMP-9 correlated significantly with female gender (p = 0.02), lower hemoglobin (p = 0.031), reduced platelet counts (p = 0.001), and higher lymphocyte counts (p = 0.035). Conclusions: MMP-9 promoter hypomethylation may play a pathogenic role in CLL and is associated with female gender and cytopenia, whereas E-Cadherin methylation appears to be non-specific. MMP-9 methylation status could therefore serve as a potential biomarker for CLL biology and prognosis. Full article

Red blood cell (RBC) deformability is a key determinant of microcirculatory flow and can be altered in hematological disorders such as chronic lymphocytic leukemia (CLL). This study aimed to evaluate RBC deformability under controlled microfluidic flow conditions and to assess the influence of software platform choice on deformability quantification. RBC suspensions from healthy individuals and untreated CLL patients were analyzed using a microfluidic imaging system across a range of shear rates. A dedicated image-processing algorithm was developed and implemented in two software environments (LabVIEW and Python) to automatically detect deformed cells, measure major and minor cell axes, and calculate the deformability index (DI). Both analytical approaches demonstrated a shear-dependent increase in DI in healthy controls, whereas RBCs from CLL patients exhibited reduced deformability and a blunted response to increasing shear rates, particularly at intermediate shear rates. Although LabVIEW produced consistently higher absolute DI values than Python, both platforms showed strong correlation and preserved the same relative trends and group discrimination. These findings demonstrate that microfluidic image flow analysis provides a robust approach for assessing RBC biomechanics and highlight the importance of standardized image-processing workflows for reliable deformability quantification across software platforms. Full article

Background/Objectives: Ibrutinib has significantly improved outcomes in chronic lymphocytic leukemia (CLL), but evidence from real-world settings on the impact of early dose modifications and consequent relative dose intensity (RDI) maintenance on survival outcomes is limited. This study evaluated the impact of dose reductions and RDI maintenance during the first 90 days of treatment on clinical outcomes in patients with CLL receiving ibrutinib in routine clinical practice. Methods: A post hoc analysis of the prospective observational EVIdeNCE study (NCT03720561) was conducted, including 275 patients with CLL treated with ibrutinib. Baseline clinical and biological factors associated with early dose modifications and RDI maintenance over the first 90 days were analyzed. Cox proportional hazards models, adjusted for disease- and patient-related covariates, were applied to assess associations with overall survival (OS) and progression-free survival (PFS), using a landmark approach to control for immortal time bias. Results: Patients with higher comorbidity burden—indicated by higher Cumulative Illness Rating Scale scores and poorer ECOG performance status—were more likely to undergo early dose reductions. RDI declined slightly over 90 days, but most patients maintained ≥80% of their RDI. The impact of disease-risk factors appeared more clearly when assessing the relationship between 100% RDI at 90 days and PFS, with ibrutinib at 100% RDI associated with improved PFS (hazard ratio, HR 2.26, 95% confidence interval, CI: 1.23–4.15). However, after adjusting for patient characteristics (e.g., comorbidity burden and cardiovascular history), the 100% RDI rate no longer showed a statistically significant effect on PFS (HR 1.84, 95% CI: 0.93–3.63). Conclusions: Baseline comorbidities and functional status drive early dose modifications, but these adjustments and RDI variability do not independently impact survival outcomes, confirming the overall tolerability of ibrutinib in real-world CLL management. Full article

Background/Objectives: The immunoglobulin heavy-chain variable (IGHV) gene repertoire represents a characteristic feature of chronic lymphocytic leukemia (CLL), although its configuration is not well defined at the early disease stages. The IGHV repertoire of a cohort of early CLL patients was analyzed and compared to that of a “real-world” reference cohort. Methods: Patients from the O-CLL1 observational protocol, which enrolled only Binet stage A cases within twelve months from diagnosis, were studied. IGHV/IGHJ rearrangements were sequenced and annotated following ERIC recommendations, and stereotyped subsets were assigned using ARResT/AssignSubsets. The repertoire features were compared with the dataset of a real-world cohort of patients with heterogeneous staging (CTR cohort) and with published early-diagnosis series. Results: IGHV and IGHJ gene distributions and HCDR3-length profiles in O-CLL1 closely mirrored those of CTR, indicating that the BcR IG repertoire at diagnosis is already defined rather than being selected during disease progression. Mutated IGHV (M-CLL) predominated, with a frequency of stereotyped BcR IG comparable to that of other early-diagnosis cohorts. However, within this conserved framework, subset #4 was over-represented among M-CLL from O-CLL without an increased overall IGHV4-34 gene usage, suggestive of a selective expansion rather than a recombinational bias. Subset #4 cases retained canonical HCDR3 motifs and showed time-to-first-treatment like other M-CLL, likely reflecting the younger age structure of O-CLL1. Conclusions: Early-diagnosis CLL displays a biased IGHV repertoire with stereotyped configurations characteristic of CLL, including subsets that are rare in the normal B-cell repertoire. These findings support a central role for antigen-driven selection in shaping CLL evolution. Full article

We prospectively evaluated whether cytotoxic T-lymphocyte (CTL) activation and T-cell receptor (TCR) Vβ clonality predict treatment-free remission (TFR) after tyrosine kinase inhibitor (TKI) cessation in chronic-phase chronic myeloid leukemia (CML). Forty-five patients with sustained deep molecular response (DMR) were enrolled (On-TKI, n = 38; Off-TKI, n = 7) and underwent one-year immuno-monitoring from consent. The primary endpoint was 12-month TFR, defined as retention of MR4. Overall, 32/45 patients (71%) maintained TFR at 12 months. Longer TKI exposure and stable DMR were associated with TFR; notably, patients fulfilling “≥7 years of TKI plus ≥1 year of DMR” and exhibiting CTL activation features—CD8 > CD4, memory > effector, and/or highly activated CTL clones on TCR Vβ repertoire—showed the highest likelihood of durable TFR. By contrast, NK cells, effector Tregs, and G-/M-MDSCs did not discriminate TFR status in this cohort. Although antigen specificity against CML stem cells was not directly tested, the memory-dominant CTL phenotype is consistent with immune control after antigen reduction. These findings suggest that a simple, clinically accessible strategy based on flow cytometric CTL profiling and TCR Vβ clonality may help inform TKI discontinuation decisions in CML. External validation is warranted to confirm transportability and refine clinical thresholds. Full article

Chronic lymphocytic leukemia (CLL) is uncommon in Asia, and longitudinal genomic data from Asian cohorts are limited. We conducted serial whole-exome sequencing (WES) in a multicenter Korean cohort of newly diagnosed, elderly CLL treated with chlorambucil–obinutuzumab to evaluate mutational heterogeneity and clonal hematopoiesis of indeterminate potential (CHIP) during treatment and follow-up. Tumor-only variants were filtered, restricted to nonsynonymous or loss-of-function coding/splice-site mutations, and summarized as a binary patient-by-gene matrix for principal component analysis (PCA), trajectory analysis, and k-means clustering. CHIP was defined as ≥1 qualifying mutation in a prespecified CHIP gene set. Baseline PCA was more compact in patients with complete response at end of treatment, whereas partial response or progressive disease cases were more dispersed. PCA trajectories were compact and directionally consistent in complete responders, more dispersed in partial responders, and highly heterogeneous without a dominant direction in progressive disease. Clustering identified dispersed and compact clusters, and CHIP-associated mutations were enriched in the dispersed cluster (55.6% vs. 8.3%, Fisher’s exact p = 0.0086). In paired samples collected 3–5 months after end of treatment, CHIP status changed in some patients. Serial WES may provide complementary information to treatment response, although these observations require confirmation in larger cohorts. Full article