Bruton's Tyrosine Kinase Research Articles

The role of B cell and microglial BTK signaling in the pathogenesis of experimental autoimmune encephalomyelitis.

Abstract Bruton’s tyrosine kinase (BTK) is a key signaling molecule expressed in B cells and microglia. While the contribution of BTK signaling in B cells to the pathogenesis of multiple sclerosis has been explored to some degree, the involvement of microglial BTK signaling to disease remains largely uncharacterized. We hypothesize that BTK signaling regulates features of microglia and B cells that drive disease progression in experimental autoimmune encephalomyelitis (EAE). Using a global-BTK KO model we have found that BTK deletion confers a protective effect against the development of EAE. Additionally, in our CD79-cre conditional KO system, deletion of BTK reduces the ability of B cells to serve as antigen presenting cells and dampens T cell responses following EAE induction. Within the central nervous system of BTK KO mice there is a reduction in B cell expression of MHC II and co-stimulatory molecules as well as a reduction in the frequency of overall CD4 (p = 0.0079, n ≥ 13) and effector CD4 (p = 0.0857, n ≥ 13) T cells compared with WT. Additionally, BTK KO mice produce less anti-rodent MOG antibody in comparison to BTK-replete controls. We have also observed that the protective effect of BTK deletion is only partially driven by BTK signaling in B cells, leading us to explore microglial contribution to disease pathogenesis. Induction of EAE in a CX3CR1-cre-ert2 conditional knock-out system will determine the contribution of microglial BTK signaling to disease pathogenesis.

In High Glucose Exposed Endothelial Cells BLNK and BTK are Novel Components of the Nuclear Factor-kappa B Pathway

Peripheral artery disease (PAD) is atherosclerotic occlusion of vessels outside the heart and most commonly affects the lower extremities. Diabetes worsens PAD outcomes, but the mechanisms involved are poorly understood. A key component of perfusion recovery in experimental PAD is induction of NFκB signaling in ischemic endothelial cells (EC). We have previously shown that prolonged exposure of ECs to high glucose before simulated ischemic exposure resulted in impairment of the canonical NFκB pathway through activation of protein kinase C β (PKCβ). However, the signaling pathways upstream of PKCβ involved in this high glucose induced desensitization of NFκB signaling are not known. We used arrays of antibodies to approximately 100 proteins known to participate in the NFκB pathway to identify the changes in their phosphorylation states in human umbilical vein endothelial cells (HUVEC). Cells grown for three days either in culture medium with normal glucose (NG) or high glucose (HG) were subjected to ischemia for 24 hours (NGI and HGI, respectively). Cell lysates from NG, HG, NGI and HGI groups were then incubated with the array of antibodies printed on glass slides and fluorescent signals were digitally recorded and normalized. The change in protein phosphorylation was calculated by dividing the intensity of the phosphorylated spots by the signal intensity of the corresponding non-phosphorylated spots for each protein. Differential expression between samples, were calculated by dividing the phosphorylation ratio of the NGI and HGI with that of the NG and HG controls, respectively. A combination of pathway analyses using bioinformatics tools on 65 modulated phosphorylation sites in HGI (represented by 35 genes) and analysis of differential phosphorylation between NGI and HGI samples suggested involvement of B cell linker/adapter protein (BLNK)/Bruton’s tyrosine kinase (BTK). BTK plays a key role in B cell antigen receptor (BCR)-coupled signaling by associating with the scaffold protein BLNK. However, neither of these proteins has been known to be expressed in ECs or play a role in EC function. In this study, we confirmed BLNK and BTK protein and transcript expression in ECs. Inhibition of BTK by a selective inhibitor terreic acid decreased PKCβ-S661 phosphorylation and restored NFκB activation through IκBα in ECs suggesting a critical role of BLNK/BTK in the EC. Thus, we have identified BLNK/BTK as potentially new components of the NFκB pathway in ECs that may be a therapeutic target to improve PAD outcomes in diabetes. National Heart, Lung, and Blood Institute (R01 HL130399) to AOD. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

Abstract 1061: The Phospholipase cγ2 And Protein Kinase cα Signaling Axis Is A Key Regulator Of The Extracellular Digestion Of Lipoprotein Aggregates By Macrophages

Atherosclerosis is characterized by cholesterol ester accumulation in macrophages, leading to foam cell formation. In atherosclerotic lesions, most lipoproteins are aggregates (agLDL) that are tightly crosslinked to the extracellular matrix, making digesting them by endocytosis or phagocytosis difficult. Thus, it has been unclear how the cholesteryl esters in the core of agLDL are hydrolyzed. Our laboratory discovered a novel mechanism macrophages use to digest agLDL and generate free cholesterol in an extracellular, acidic, hydrolytic compartment known as the lysosomal synapse. Macrophages form a tight seal around agLDL through actin polymerization and deliver lysosomal contents into this space in a process termed digestive exophagy. Vacuolar ATPase on the plasma membrane lowers the pH of the lysosomal synapse, enabling lysosomal acid lipase (LAL) activity. LAL generates free cholesterol, which accumulates in macrophages and leads to foam cell formation. Our laboratory has begun to characterize the signaling pathways that regulate digestive exophagy, having previously identified TLR4 activation of MyD88/Syk as critical. Here, our goal was to identify digestive exophagy regulators downstream of Syk. Syk activates Bruton’s tyrosine kinase (BTK) and phospholipase Cγ2 (PLCγ2). We tested the hypothesis that Syk phosphorylates and activates PLCγ2 during digestive exophagy. Using pharmacological treatment and genetic manipulation, we found that PLCγ2 and to a lesser extent BTK regulate digestive exophagy. We confirmed that inhibition of Syk or BTK leads to a loss of PLCγ2 activation. PLCγ2 cleaves PI(4,5)P 2 into diacylglycerol (DAG) and inositol 1,4,5-trisphosphate (IP 3 ). Soluble IP 3 then activates the release of Ca 2+ from the endoplasmic reticulum (ER) into the cytoplasm. We demonstrated that Ca 2+ release from the ER is upregulated by agLDL and plays a role in digestive exophagy. Both DAG and Ca 2+ activate protein kinase Cα (PKCα). We also found that PKCα regulates digestive exophagy. In conclusion, we identified new signaling mechanisms regulating digestive exophagy downstream of Syk. We hope that expanding our understanding of the mechanisms of digestive exophagy will be helpful in identifying therapeutics to slow atherosclerosis.

Optimizing BTK Inhibition in Waldenström Macroglobulinemia.

Bruton tyrosine kinase (BTK) inhibitors have become a standard of care in the treatment of patients with Waldenström macroglobulinemia (WM) and are the only medications approved by the FDA to treat these patients. As more patients with WM are treated with BTK inhibitors in the United States and worldwide, it is essential to optimize this therapy by selecting the patients who are more likely to benefit from it, and by managing the unique adverse effects associated with these agents. Herein, we propose a genomic-driven approach to selecting patients with WM who are more likely to experience fast, deep, and durable responses to BTK inhibitors, and provide practical strategies for managing adverse effects, including BTK inhibitor dose reductions, switching to other BTK inhibitors, and abandoning BTK inhibitor therapy. Ongoing clinical trials are evaluating covalent and noncovalent BTK inhibitors alone and in combination, as well as BTK degraders, with exciting results, making the horizon for BTK-targeting therapies in WM bright and hopeful.

A phase II study of ibrutinib in combination with ixazomib in patients with Waldenström macroglobulinaemia.

This phase II study evaluated time-limited (24 cycles) treatment with ibrutinib and ixazomib in newly diagnosed (NDWM; n = 9) and relapsed/refractory (RRWM; n = 12) Waldenström macroglobulinaemia (WM). The overall response rate (ORR) was 76.2% (n = 16) in 21 evaluable patients with no patient achieving a complete response (CR). The median duration of treatment was 15.6 months, and after a median follow-up time of 25.7 months, the median progression-free survival (PFS) was 22.9 months. While the primary end-point was not met (CR rate at any time) and 28.5% discontinued treatment due to toxicity, ibrutinib plus ixazomib led to a clinically meaningful ORR and PFS. Combined Bruton's tyrosine kinase (BTK) and proteasome inhibition merits further evaluation in WM.

Anti-Myelin-associated Glycoprotein Neuropathy

Anti-myelin-associated glycoprotein (MAG) neuropathy, which occurs secondary to immunoglobulin (Ig)M paraproteinemia such as monoclonal gammopathy of undetermined significance, is characterized by slow progression, sensory or sensorimotor disturbances, and ataxia. The estimated prevalence of this neuropathy in Japan is 0.28 per 100,000 population with male preponderance. This neuropathy is diagnosed based on the detection of M protein and anti-MAG antibodies in patients' serum. Nerve conduction studies show prolonged distal latency, and histopathological evaluation of sural nerve biopsies shows widely spaced myelin on electron microscopy. Usually, immunotherapy, including administration of intravenous Ig and corticosteroids, is ineffective, and rituximab is beneficial in approximately 50% of patients. Novel therapies, such as administration of Bruton's tyrosine kinase inhibitors are expected to benefit patients with the MYD88L265P mutation.

IgA nephropathy in a child with X-linked agammaglobulinemia: a case report

BackgroundX-linked agammaglobulinemia (XLA) is a primary immunodeficiency disease caused by mutations in the Bruton tyrosine kinase (BTK) gene. Individuals diagnosed with XLA are at an increased risk of developing autoimmune diseases. However, renal involvement are rare in cases of XLA.Case presentationIn this report, we discussed a specific case involving a 6-year-old boy with XLA who experienced recurrent upper respiratory tract infections since the age of one. He presented with symptoms of hematuria and proteinuria, and renal pathology confirmed the presence of immunoglobulin (Ig) A nephropathy. Treatment comprised glucocorticoids, mycophenolate mofetil, and intermittent intravenous immunoglobulin replacement therapy. Consequently, there was a remission of proteinuria and a partial improvement in hematuria.ConclusionsIn this study, we describe the first case of IgA nephropathy associated with XLA. This is an interesting phenotype found in XLA, and it provides valuable insights into the process of autoimmunity and the regulation of immune function in individuals with XLA. Based on our findings, we recommend the evaluation of immunoglobulin levels in patients diagnosed with IgA nephropathy.

B-cells absence in patients diagnosed as inborn errors of immunity: a registry-based study.

Hypogammaglobulinemia without B-cells is a subgroup of inborn errors of immunity (IEI) which is characterized by a significant decline in all serum immunoglobulin isotypes, coupled with a pronounced reduction or absence of B-cells. Approximately 80 to 90% of individuals exhibit genetic variations in Bruton's agammaglobulinemia tyrosine kinase (BTK), whereas a minority of cases, around 5-10%, are autosomal recessive agammaglobulinemia (ARA). Very few cases are grouped into distinct subcategories. We evaluated phenotypically and genetically 27 patients from 13 distinct families with hypogammaglobinemia and no B-cells. Genetic analysis was performed via whole-exome and Sanger sequencing. The most prevalent genetic cause was mutations in BTK. Three novel mutations in the BTK gene include c.115T > C (p. Tyr39His), c.685-686insTTAC (p.Asn229llefs5), and c.163delT (p.Ser55GlnfsTer2). Our three ARA patients include a novel homozygous stop-gain mutation in the immunoglobulin heavy constant Mu chain (IGHM) gene, a novel frameshift mutation of the B-cell antigen receptor complex-associated protein (CD79A) gene, a novel bi-allelic stop-gain mutation in the transcription factor 3 (TCF3) gene. Three patients with agammaglobulinemia have an autosomal dominant inheritance pattern,which includesa missense variant in PIK3CD, a novel missense variant in PIK3R1 and a homozygous silent mutation in the phosphoinositide-3-kinase regulatory subunit (RASGRP1) gene. This study broadens the genetic spectrum of hypogammaglobulinemia without B-cells and presented a few novel variants within the Iranian community, which may also have implications in other Middle Eastern populations. Notably, disease control was better in the second affected family member in families with multiple cases.

Treatment patterns, clinical outcomes and gene mutation characteristics of hepatitis B virus-associated mantle cell lymphoma.

Mantle cell lymphoma (MCL) is an uncommon and incurable B-cell lymphoma subtype that has an aggressive course. Hepatitis B virus (HBV) infection has been associated with an increased risk for B-cell lymphomas, and is characterized by distinct clinical and genetic features. Here, we showed that 9.5% of MCL Chinese patients were hepatitis B surface antigen positive (HBsAg+). Compared to HBsAg-negative (HBsAg-) patients, HBsAg+ MCL patients had a greater incidence of elevated lactate dehydrogenase (LDH), but no difference was observed in the other clinical characteristics, including sex, age, ECOG ps, Ann Arbor stage, MIPI, extranodal involvement and Ki-67. The HD-AraC (high-dose cytarabine) regimen was the main first-line induction regimen for younger HBsAg+ patients, and cyclophosphamide, doxorubicin, vincristine and prednisone (CHOP) were used for elderly patients. HBsAg seropositivity was associated with a significantly shorter PFS than HBsAg seronegativity when patients were treated with rituximab or CHOP-based regimens. Compared with CHOP, the HD-AraC regimen was associated with longer PFS in HBsAg+ patients. Treatment with a Bruton tyrosine kinase inhibitor (BTKi) alone can also cause HBV reactivation. Among the 74 patients who underwent targeted deep sequencing (TDS), the nonsynonymous mutation load of HBsAg+ MCL patients was greater than that of HBsAg- MCL patients. HDAC1, TRAF5, FGFR4, SMAD2, JAK3, SMC1A, ZAP70, BLM, CDK12, PLCG2, SMO, TP63, NF1, PTPR, EPHA2, RPTOR and FIP1L1 were significantly enriched in HBsAg+ MCL patients.

BTK inhibition limits microglia-perpetuated CNS inflammation and promotes myelin repair

In multiple sclerosis (MS), persisting disability can occur independent of relapse activity or development of new central nervous system (CNS) inflammatory lesions, termed chronic progression. This process occurs early and it is mostly driven by cells within the CNS. One promising strategy to control progression of MS is the inhibition of the enzyme Bruton's tyrosine kinase (BTK), which is centrally involved in the activation of both B cells and myeloid cells, such as macrophages and microglia. The benefit of BTK inhibition by evobrutinib was shown as we observed reduced pro-inflammatory activation of microglia when treating chronic experimental autoimmune encephalomyelitis (EAE) or following the adoptive transfer of activated T cells. Additionally, in a model of toxic demyelination, evobrutinib-mediated BTK inhibition promoted the clearance of myelin debris by microglia, leading to an accelerated remyelination. These findings highlight that BTK inhibition has the potential to counteract underlying chronic progression of MS.

Acalabrutinib-based regimens in frontline or relapsed/refractory higher-risk CLL: pooled analysis of 5 clinical trials

AbstractBefore targeted therapies, patients with higher-risk chronic lymphocytic leukemia (CLL), defined as del(17p) and/or TP53 mutation (TP53m), unmutated immunoglobulin heavy chain variable region genes (uIGHV), or complex karyotype (CK), had poorer prognosis with chemoimmunotherapy. Bruton tyrosine kinase inhibitors (BTKis) have demonstrated benefit in higher-risk patient populations with CLL in individual trials. To better understand the impact of the second-generation BTKi acalabrutinib, we pooled data from 5 prospective clinical studies of acalabrutinib as monotherapy or in combination with obinutuzumab (ACE-CL-001, ACE-CL-003, ELEVATE-TN, ELEVATE-RR, and ASCEND) in patients with higher-risk CLL in treatment-naive (TN) or relapsed/refractory (R/R) cohorts. A total of 808 patients were included (TN cohort, n = 320; R/R cohort, n = 488). Median follow-up was 59.1 months (TN cohort) and 44.3 months (R/R cohort); 51.3% and 26.8% of patients in the TN and R/R cohorts, respectively, remained on treatment at last follow-up. In the del(17p)/TP53m, uIGHV, and CK subgroups in the TN cohort, median progression-free survival (PFS) and median overall survival (OS) were not reached (NR). In the del(17p)/TP53m, uIGHV, and CK subgroups in the R/R cohort, median PFS was 38.6 months, 46.9 months, and 38.6 months, respectively, and median OS was 60.6 months, NR, and NR, respectively. The safety profile of acalabrutinib-based therapy in this population was consistent with the known safety profile of acalabrutinib in a broad CLL population. Our analysis demonstrates long-term benefit of acalabrutinib-based regimens in patients with higher-risk CLL, regardless of line of therapy.

Real-World Health Care Resource Use and Costs Among Patients With Chronic Lymphocytic Leukemia Treated With Venetoclax-Based and Bruton Tyrosine Kinase Inhibitor-Based Regimens in the Second-Line Setting.

Real-world evidence comparing health care resource use (HRU) and costs between novel targeted therapies among patients with chronic lymphocytic leukemia (CLL) is lacking. We compared all-cause and CLL-specific HRU and costs between patients initiated on B-cell lymphoma 2 inhibitor (venetoclax)- or Bruton tyrosine kinase inhibitor (BTKi)-based regimens in the second-line (2L) setting. This is a retrospective observational study using Optum Clinformatics Data Mart of adult patients with CLL/small lymphocytic lymphoma who received 2L venetoclax- or BTKi-based regimens (January 2018-December 2021) for the first time and had ≥one CLL diagnostic claim after 2L initiation and ≥two claims for venetoclax or BTKi. Baseline characteristics were balanced using stabilized inverse probability of treatment weights. Mean monthly cost difference (MMCD) between cohorts for all-cause and CLL-specific per patient per month (PPPM) costs was estimated. Rates of PPPM-HRU were compared between cohorts using rate ratios (RRs). Of 280 patients, median age 75.5 years, 64.6% and 35.4% received BTKi- versus venetoclax-based regimens, respectively. Most BTKi-treated patients received monotherapy (88.4%), whereas 62.3% of venetoclax-treated patients received combination therapy with anti-CD20 agents. The median duration of 2L therapy was 11.6 and 11.0 months for BTKi versus venetoclax cohorts, respectively. All-cause total costs were lower for venetoclax versus BTKi (MMCD [SE], $-2,497.64 [$1,006.77] in US dollars (USD); P = .01), driven by lower medication costs offsetting medical costs; trends were similar for CLL-specific estimates. Outpatient HRU was higher for venetoclax versus BTKi (RR all-cause: 1.22 versus CLL-specific: 1.64). Venetoclax was associated with total monthly cost savings versus BTKis, illustrating the economic value of time-limited venetoclax-based regimens in the 2L setting.

Acalabrutinib, venetoclax, and obinutuzumab in relapsed/refractory CLL: final efficacy and ctDNA analysis of the CLL2-BAAG trial

AbstractThe phase 2 CLL2-BAAG trial tested the measurable residual disease (MRD)–guided triple combination of acalabrutinib, venetoclax, and obinutuzumab after optional bendamustine debulking in 45 patients with relapsed/refractory chronic lymphocytic leukemia (CLL). MRD was measured by flow cytometry (FCM; undetectable MRD <10–4) in peripheral blood (PB) and circulating tumor DNA (ctDNA) using digital droplet polymerase chain reaction of variable-diversity-joining (VDJ) rearrangements and CLL-related mutations in plasma. The median number of previous treatments was 1 (range, 1-4); 18 patients (40%) had received a Bruton tyrosine kinase inhibitor (BTKi) and/or venetoclax before inclusion, 14 of 44 (31.8%) had TP53 aberrations, and 34 (75.6%) had unmutated immunoglobulin heavy-chain variable region genes. With a median observation time of 36.3 months and all patients off-treatment for a median of 21.9 months, uMRD <10–4 in PB was achieved in 42 of the 45 patients (93.3%) at any time point, including 17 of 18 (94.4%) previously exposed to venetoclax/BTKi and 13 of 14 (92.9%) with TP53 aberrations. The estimated 3-year progression-free and overall survival rates were 85.0% and 93.8%, respectively. Overall, 585 paired FCM/ctDNA samples were analyzed and 18 MRD recurrences (5 with and 13 without clinical progression) occurred after the end of treatment. Twelve samples were first detected by ctDNA, 3 by FCM, and 3 synchronously. In conclusion, time-limited MRD-guided acalabrutinib, venetoclax, and obinutuzumab achieved deep remissions in almost all patients with relapsed/refractory CLL. The addition of ctDNA-based analyses to FCM MRD assessment seems to improve early detection of relapses. This trial was registered at www.clinicaltrials.gov as #NCT03787264.

Oncotherapy resistance explained by Darwinian and Lamarckian models.

Cell and antibody therapies directed against surface molecules on B cells, e.g., CD19-targeting chimeric antigen receptor T cells (CD19 CAR-T), are now standard for patients with chemorefractory B cell acute lymphoblastic leukemias and other B cell malignancies. However, early relapse rates remain high. In this issue of the JCI, Aminov, Giricz, and colleagues revealed that leukemia cells resisting CD19-targeted therapy had reduced CD19 but also low CD22 expression and were sensitive to Bruton's tyrosine kinase and/or MEK inhibition. Overall, their observations support the evolution of resistance following a Lamarckian model: the oncotherapy directly elicits adaptive, resistance-conferring reconfigurations, which are then inherited by daughter cells as epigenetic changes. The findings prompt reflection also on the broader role of epigenetics in decoupling of replication from lineage differentiation activation by the B cell lineage master transcription factor hub. Such oncogenesis and resistance mechanisms, being predictable and epigenetic, offer practical opportunities for intervention, potentially non-cross-resistant and safe vis-à-vis present cytotoxic and CAR-T treatments.

Richter transformation acquiring PLCG2 mutation during Bruton tyrosine kinase inhibitors treatment.

Richter transformation acquiring PLCG2 mutation during Bruton tyrosine kinase inhibitors treatment.

Development of combination therapies with BTK inhibitors and dasatinib to treat CNS-infiltrating E2A-PBX1+/preBCR+ ALL

AbstractThe t(1;19) translocation, encoding the oncogenic fusion protein E2A (TCF3)-PBX1, is involved in acute lymphoblastic leukemia (ALL) and associated with a pre–B-cell receptor (preBCR+) phenotype. Relapse in patients with E2A-PBX1+ ALL frequently occurs in the central nervous system (CNS). Therefore, there is a medical need for the identification of CNS active regimens for the treatment of E2A-PBX1+/preBCR+ ALL. Using unbiased short hairpin RNA (shRNA) library screening approaches, we identified Bruton tyrosine kinase (BTK) as a key gene involved in both proliferation and dasatinib sensitivity of E2A-PBX1+/preBCR+ ALL. Depletion of BTK by shRNAs resulted in decreased proliferation of dasatinib-treated E2A-PBX1+/preBCR+ cells compared with control-transduced cells. Moreover, the combination of dasatinib with BTK inhibitors (BTKi; ibrutinib, acalabrutinib, or zanubrutinib) significantly decreased E2A-PBX1+/preBCR+ human and murine cell proliferation, reduced phospholipase C gamma 2 (PLCG2) and BTK phosphorylation and total protein levels and increased disease-free survival of mice in secondary transplantation assays, particularly reducing CNS-leukemic infiltration. Hence, dasatinib with ibrutinib reduced pPLCG2 and pBTK in primary ALL patient samples, including E2A-PBX1+ ALLs. In summary, genetic depletion and pharmacological inhibition of BTK increase dasatinib effects in human and mouse with E2A-PBX1+/preBCR+ ALL across most of performed assays, with the combination of dasatinib and BTKi proving effective in reducing CNS infiltration of E2A-PBX1+/preBCR+ ALL cells in vivo.

Mouse models of CLL: In vivo modeling of disease initiation, progression, and transformation

Chronic lymphocytic leukemia (CLL) is a highly complex disease characterized by the proliferation of CD5+ B cells in lymphoid tissues. Current modern treatments have brought significant clinical benefits to CLL patients. However, there are still unmet needs. Patients relapse on Bruton's tyrosine kinase inhibitors and BCL2 inhibitors and often develop more aggressive diseases including Richter transformation (RT), an incurable complication of up to ∼10% patients. This evidence underscores the need for improved immunotherapies, combination treatment strategies, and predictive biomarkers. A mouse model that can recapitulate human CLL disease and certain components of the tumor immune microenvironment represents a promising preclinical tool for such purposes. In this review, we provide an overview of CRISPR-engineered and xenograft mouse models utilizing either cell lines, or primary CLL cells suitable for studies of key events driving the disease onset, progression and transformation of CLL. We also review how CRISPR/Cas9 established mouse models carrying loss-of-function lesions allow one to study key mutations driving disease progression. Finally, we discuss how next generation humanized mice might improve to generation of faithful xenograft mouse models of human CLL.

ВЗК-ПОДОБНЫЕ ЗАБОЛЕВАНИЯ У ПАЦИЕНТОВ С Х-СЦЕПЛЕННОЙ АГАММАГЛОБУЛИНЕМИЕЙ: АНАЛИЗ КЛИНИЧЕСКИХ НАБЛЮДЕНИЙ

X-linked agammaglobulinemia (XLA) is a primary immunodeficiency (PID) characterized by defective B cell maturation, low serum immunoglobulin concentrations and recurrent infectious episodes. The disease is caused by defects of the BTK gene, which encodes Bruton's tyrosine kinase. Along with frequent infections, autoimmune complications of XLA are an important issue. Inflammatory bowel disease-like syndromes (IBD) represent a special group of complications of XLA, their pathophysiology largely unknown. Materials and methods used: Authors conducted a retrospective data analysis of 56 patients with XLA followed at the National Scientific and Practical Center for Pediatric Hematology, Oncology and Immunology named after Dmitry Rogachev (Moscow, Russia) in 2011-2022. Results: IBD-like disease was diagnosed in 11 of 56 (19.6%) patients with XLA, based on medical history, endoscopic picture, histological and laboratory studies. The median onset of the first clinical manifestations of IBD was 7 years (2;14). The most common symptoms were weight loss (7/11, 64%), chronic diarrhea (7/11, 64%) and recurrent abdominal pain (5/11, 45%). Blood in the stool was detected in a quarter of the patients (3/11, 27%). Upon implementation of anti-inflammatory therapy, the majority of patients available for assessment (7/10, 70%) demonstrated improvement. Complete response to therapy with mesalazine was achieved in 2 patients out of 9 who used it (22%). Complete response to treatment with adalimumab was observed in 1 out of 4, with infliximab in 1/3, and with vedolizumab in 1/2. A single patient had refractory IBD without response to all treatment modalities, which served as an indication for allogeneic hematopoietic stem cell transplantation (HSCT), which unfortunately resulted in fatal outcome due to early post-transplant complications. Conclusion: intestinal symptoms in XLA require special vigilance and a multidisciplinary approach. In the study group, the use of variable anti-inflammatory therapy in the majority of patients was shown to be effective and did not lead to the development of additional infectious complications. Analysis of a larger number of patients with XLA and IBD would allow standardization of anti-inflammatory therapy selection in this complex group.

Investigating bleeding adverse events associated with BTK inhibitors in the food and drug administration adverse event reporting system (FAERS)

ABSTRACT Background This study analyzed the bleeding adverse events (AEs) resulting from the treatment of B-cell lymphoma with Bruton tyrosine kinase (BTK) inhibitors, according to reports in the US Food and Drug Administration’s Adverse Event Reporting System (FAERS) Methods Bleeding AEs associated with BTK inhibitors (including ibrutinib, zanubrutinib, and acalabrutinib) from the first quarter of 2013 to the third quarter of 2023 were extracted. Reporting odds ratio (ROR) and proportional reporting ratio (PRR) were reported. Preferred Terms (PTs) of Medical Dictionary for Regulatory Activities (MedDRA) terms were mapped to System Organ Class terms (SOC) terms and analyzed bleeding AEs associated with three BTK inhibitors. Results A total of 463 cases of bleeding AEs were included. Contusion, subcutaneous hemorrhage, hematuria, and cerebral hemorrhage were included in PTs. Blood urine was present and subdural hematoma were also reported. The incidence of bleeding AEs was higher with ibrutinib (Case number = 10,696) than with zanubrutinib (Case number = 213) and acalabrutinib (Case number = 314). Conclusion Our findings indicate that bleeding AEs linked to BTK inhibitors in various conditions underscore the need for cautious clinical decision-making, particularly in nervous system disorders, injuries, poisoning, surgical complications, vascular disorders, and others.

Ibrutinib disrupts blood-tumor barrier integrity and prolongs survival in rodent glioma model

In malignant glioma, cytotoxic drugs are often inhibited from accessing the tumor site due to the blood-tumor barrier (BTB). Ibrutinib, FDA-approved lymphoma agent, inhibits Bruton tyrosine kinase (BTK) and has previously been shown to independently impair aortic endothelial adhesion and increase rodent glioma model survival in combination with cytotoxic therapy. Yet additional research is required to understand ibrutinib’s effect on BTB function. In this study, we detail baseline BTK expression in glioma cells and its surrounding vasculature, then measure endothelial junctional expression/function changes with varied ibrutinib doses in vitro. Rat glioma cells and rodent glioma models were treated with ibrutinib alone (1–10 µM and 25 mg/kg) and in combination with doxil (10–100 µM and 3 mg/kg) to assess additive effects on viability, drug concentrations, tumor volume, endothelial junctional expression and survival. We found that ibrutinib, in a dose-dependent manner, decreased brain endothelial cell–cell adhesion over 24 h, without affecting endothelial cell viability (p < 0.005). Expression of tight junction gene and protein expression was decreased maximally 4 h after administration, along with inhibition of efflux transporter, ABCB1, activity. We demonstrated an additive effect of ibrutinib with doxil on rat glioma cells, as seen by a significant reduction in cell viability (p < 0.001) and increased CNS doxil concentration in the brain (56 ng/mL doxil alone vs. 74.6 ng/mL combination, p < 0.05). Finally, Ibrutinib, combined with doxil, prolonged median survival in rodent glioma models (27 vs. 16 days, p < 0.0001) with brain imaging showing a − 53% versus − 75% volume change with doxil alone versus combination therapy (p < 0.05). These findings indicate ibrutinib’s ability to increase brain endothelial permeability via junctional disruption and efflux inhibition, to increase BTB drug entry and prolong rodent glioma model survival. Our results motivate the need to identify other BTB modifiers, all with the intent of improving survival and reducing systemic toxicities.