Hypomorphic Mutations in the BCR Signalosome Lead to Selective Immunoglobulin M Deficiency and Impaired B-cell Homeostasis

Synthesis of a Potent Bruton's Tyrosine Kinase Inhibitor Labelled With Carbon-14 and Deuterium

Bruton's tyrosine kinase (BTK) is a cytoplasmic enzyme that plays a crucial role in B cell development, survival, proliferation and differentiation. This enzyme is expressed in several autoimmune diseases and cancers. Therefore, shutting out this enzyme with irreversible inhibitors is one of the strategies used to treat these diseases. The drug candidate 1 is a very potent and selective BTK inhibitor. Herein, we describe the preparation of this compound labelled with deuterium and carbon-14. Deuterium labelled 1 was prepared in 10 chemical steps and in 35% overall yield with more than 98% chemical purity and more than 99% isotopic enrichment. This synthesis was followed with the radioactive one as both synthetic routes were similar. Carbon-14 labelled 1 was prepared in eight radiochemical steps in 26% overall yield and in more than 99% radio and chemical purities and with specific activity of 53.1 mCi/mmol (1.96 GBq/mmol). This isotopically labelled compound was needed for DMPK and other studies.

Selective IgM deficiency: evaluation of 75 patients according to different diagnostic criteria

Selective IgM deficiency (SIgMD) has recently been included in the inborn errors of immunity classification. SIgMD has conflicting diagnostic criteria and diverse clinical and immunological findings. We aimed to assess the clinical and laboratory profiles of patients with SIgMD and to compare the data of patients diagnosed using two inclusion criteria. This was a descriptive, retrospective, observational, collaborative study. Patients were included according to the following definitions: Group 1, IgM levels < 0.20 g/L in children and < 0.30 g/L in adults, and Group 2, serum IgM levels below 2SD and, for both, absence of associated immunological diseases or secondary causes. The protocol was approved by the Ethics Committee, and patients provided consent. In total, 75 patients were included: 37 (16 M:21F; mean age, 52.92) and 38 (13 M:25F; mean age, 53.47) in Groups 1 and 2, respectively. The most frequent clinical manifestations were allergic rhinitis (G1, 45.9%; G2, 36.8%), asthma (G1, 37.8%; G2, 28.9%), and pulmonary infections (G1, 27.03%; G2, 21.05%). Chromosomopathies (16.22%) and neoplasia (13.51%) were more frequent in G1, whereas URTI (23.68%) and skin infections (23.68%) were more common in G2. There was no difference in sex or mean age at symptom onset between both groups of patients. Regarding the clinical picture, 90.7% of the lesions were benign (68/75). Chromosomopathies may be associated with SIgMD, suggesting the need to quantify serum IgM levels in these cases. Considering the possibility of developing autoimmunity, neoplasia, and common variable immunodeficiency, it is advisable to follow up patients with SIgMD.

Selective IgM Deficiency: Evidence, Controversies, and Gaps

Selective Immunoglobulin M deficiency (SIgMD) has been recently included in the inborn errors of immunity (IEI) classification by the International Union of Immunological Societies Expert Committee. The understanding of SIgMD is still extremely limited, especially so in cases of SIgMD in the pediatric population. The epidemiology of SIgMD in the pediatric population is still unknown. The pathogenesis of SIgMD remains elusive, and thus far no genetic nor molecular basis has been clearly established as a definitive cause of this primary immunodeficiency. Recurrent respiratory infections represent the main clinical manifestations in children, followed by allergic and autoimmune diseases. No conclusive data on the correct therapeutic management of SIgMD are available. Although, for most SIgMD patients, Ig replacement therapy is not required, it may be recommended for patients with significantly associated antibody deficiency and recurrent or severe infections. Prophylactic antibiotics and the prompt treatment of febrile illness are crucial. There is insufficient evidence on the prognosis of this condition. Therefore, further studies are required to define the disease trajectories and to increase our understanding of the molecular mechanisms underlying SIgMD in order to facilitate a better clinical, immunological, and prognostic characterization of the condition and develop tailored therapeutic management strategies.

A Novel BLNK Gene Mutation in a Four-Year-Old Child Who Presented with Late Onset of Severe Infections and High IgM Levels and Diagnosed and Followed as X-Linked Agammaglobulinemia for Two Years

Agammaglobulinemia is a rare inherited immunodeficiency disorder. Mutations in the BLNK gene cause low levels of mature B lymphocytes in the peripheral blood leading to recurrent infections. We present a four-year-old Turkish boy who had recurrent respiratory tract infections in the last six months. He had very low IgG (81 mg/dl) and IgA levels (<5 mg/dl) with high IgM (258 mg/dl). Flow cytometric analysis of lymphocyte subsets showed low CD19+ B cells (0.05%). Homozygous c.790C > T (p.Gln264Ter) mutation was detected in the BLNK gene with Targeted Next Generation Sequencing (TNGS) gene analysis. Agammaglobulinemia may be due to different genetic etiologies together with complex genetic events. Although the first diagnosis to be considered in male patients is Bruton's agammaglobulinemia, patients with normal BTK sequence and/or expression should be investigated with a large genetic study such as TNGS in the early period to reach a definitive diagnosis. This male case of agammaglobulinemia highlights the necessity of considering BLNK mutations in children with B cell deficiency, even though they are known to be rare causes of agammaglobulinemia. Our case is also remarkable with high IgM levels before intravenous immunoglobulin replacement therapy and with late-onset severe infections.

The Possible Role of Bruton Tyrosine Kinase Inhibitors in the Treatment of COVID-19: A Review

BACKGROUND

Coronavirus disease 2019 (COVID-19), an acute, sometimes severe respiratory illness caused by a novel coronavirus has led to a vast pandemic with an astonishing spread rate. Its treatment is unknown, its mortality is significant, and its socioeconomic complications are uncontrollable. Although there is still little known about the pathogenesis of the disease, severe cases of COVID-19 are usually associated with cytokine release syndrome and high serum levels of inflammatory cytokines, which are believed to be a major cause of mortality in these patients. Different pathways cause inflammation and the release of cytokines. One of these pathways is the Bruton tyrosine kinase (BTK) pathway, which is essential for the production of several anti-inflammatory cytokines. Theoretically, the inhibition of BTK signaling can reduce cytokine levels and subsequent anti-inflammatory effects.

OBJECTIVE

This review aims to investigate the role of the BTK pathway in the pathogenesis of COVID-19 and the possible effects of its inhibition in the treatment of this disease.

METHODS

This narrative review provides information regarding the use of BTK inhibitors in patients with COVID-19 and discusses whether clinicians should consider these medications while managing their patients based on the literature. Data were gathered using the PubMed, Scopus, and Web of Science databases.

RESULTS

Some data support the use of BTK inhibitors for treating COVID-19.

CONCLUSIONS

It is recommended that patients continue their medications in this class if they develop COVID-19 and were receiving these agents before the disease developed. The use of BTK inhibitors might enable patients to experience less severe immune responses to the COVID-19. Well-designed studies are needed to evaluate the effectiveness of BTKis in the management of COVID-19. (Curr Ther Res Clin Exp. 2022; 82:XXX-XXX) © 2022 Elsevier HS Journals.

Selective IgM deficiency: Follow-up and outcome

BACKGROUND

Selective IgM deficiency (sIgMD) is classified under primary immunodeficiencies (PID). This study aimed to define the clinical and immunologic features of sIgMD.

PATIENT AND METHODS

We assessed a retrospective medical record of patients who fulfilled the diagnostic criteria for sIgMD in a pediatric immunology department.

RESULTS

There were 55 patients with sIgMD. Out of 55 patients, 13 (23.6%) patients, diagnosed with a well-defined PID disease, and nine, evaluated as transient hypogammaglobulinemia, were excluded in the follow-up. The ratio of the sIgMD was %0.12 in the outpatient clinic of pediatric immunology (33/27,000). Out of 33 patients, eight (24,2%) were asymptomatic during the follow-up period. Fifteen (45.4%) patients presented with upper/lower respiratory and skin infections. Six patients (18%) had chromosomal anomaly, or syndrome (trisomy 21, 22q11.2 deletion 1p deletion, CHARGE syndrome, and Cohen syndrome). Six (18%) had autoimmune/inflammatory diseases, such as Behcet's disease, immune thrombocytopenic purpura, Crohn's disease, Guillain-Barre syndrome, and diabetes mellitus. Five (15%) had allergic disorders. Three patients (9%) developed malignancy. The PID diagnoses were combined immunodeficiency, common variable immunodeficiency, chronic granulomatous disease, adenosine deaminase deficiency, and congenital neutropenia.

CONCLUSION

Genetic disorders, autoimmune/inflammatory, and allergic diseases may accompany sIgMD. Approximately 25% of the patients were asymptomatic in our series. Patients had increased malignancy risk. We diagnosed about 25% of the patients having low IgM with a specific PID in the follow-up period. Thus, patients with sIgMD should be followed up regularly in immunology clinics.

Selective immunoglobulin M deficiency in a patient with celiac disease and recurrent pneumonia

SIgMD is a rare immune disorder that occurs in a primary or secondary condition. Patients with recurrent infectious, cancers, and autoimmune disorders should be investigated to determine SIgMD.

Further delineation of primary B cell immunodeficiency caused by novel variants of the BLNK gene in two Chinese patients

Biallelic variants in BLNK cause primary B-cell immunodeficiency that usually results in absence of B cells and immunoglobulin. Here, we identified disease-causing variant(s) in two unrelated Chinese patients with agammaglobulinemia. Patient 1 showed a moderate reduction in total B-cell count but demonstrated both extremely low levels of memory B-cells and lower levels of memory T cells relative to those in healthy controls. Whole-exome sequencing (WES) revealed a novel heterozygous splice variant (c.676+1G>A), and suggested exon 9 deletion from BLNK, which was subsequently validated by quantitative polymerase chain reaction. For Patient 2, WES revealed novel compound heterozygous of a frameshift variant (p.T152Pfs*6) and a synonymous variant (c.525G>A) that resulted in exon 6 skipping, according to cDNA sequencing. These findings represent the first report of a BLNK-deficient patient presenting with impaired memory B-cell and memory T-cell development. Furthermore, this study is the first reporting a pathogenic synonymous splice variant in BLNK.

Complement Factor H Modulates Splenic B Cell Development and Limits Autoantibody Production

Complement factor H (CFH) has a pivotal role in regulating alternative complement activation through its ability to inhibit the cleavage of the central complement component C3, which links innate and humoral immunity. However, insights into the role of CFH in B cell biology are limited. Here, we demonstrate that deficiency of CFH in mice leads to altered splenic B cell development characterized by the accumulation of marginal zone (MZ) B cells. Furthermore, B cells in Cfh^−/− mice exhibit enhanced B cell receptor (BCR) signaling as evaluated by increased levels of phosphorylated Bruton's tyrosine kinase (pBTK) and phosphorylated spleen tyrosine kinase (pSYK). We show that enhanced BCR activation is associated with uncontrolled C3 consumption in the spleen and elevated complement receptor 2 (CR2, also known as CD21) levels on the surface of mature splenic B cells. Moreover, aged Cfh^−/− mice developed splenomegaly with distorted spleen architecture and spontaneous B cell-dependent autoimmunity characterized by germinal center hyperactivity and a marked increase in anti-double stranded DNA (dsDNA) antibodies. Taken together, our data indicate that CFH, through its function as a complement repressor, acts as a negative regulator of BCR signaling and limits autoimmunity.