COVID-19 Vaccination in Patients with Inborn Errors of Immunity Reduces Hospitalization and Critical Care Needs Related to COVID-19: a USIDNET Report.

BACKGROUND: The CDC and ACIP recommend COVID-19 vaccination for patients with inborn errors of immunity (IEI). Not much is known about vaccine safety in IEI, and whether vaccination attenuates infection severity in IEI. OBJECTIVE: To estimate COVID-19 vaccination safety and examine effect on outcomes in patients with IEI. METHODS: We built a secure registry database in conjunction with the US Immunodeficiency Network to examine vaccination frequency and indicators of safety and effectiveness in IEI patients. The registry opened on January 1, 2022, and closed on August 19, 2022. RESULTS: Physicians entered data on 1245 patients from 24 countries. The most common diagnoses were antibody deficiencies (63.7%). At least one COVID-19 vaccine was administered to 806 patients (64.7%), and 216 patients received vaccination prior to the development of COVID-19. The most common vaccines administered were mRNA-based (84.0%). Seventeen patients were reported to seek outpatient clinic or emergency room care for a vaccine-related complication, and one patient was hospitalized for symptomatic anemia. Eight hundred twenty-three patients (66.1%) experienced COVID-19 infection. Of these, 156 patients required hospitalization (19.0%), 47 required ICU care (5.7%), and 28 died (3.4%). Rates of hospitalization (9.3% versus 24.4%, p < 0.001), ICU admission (2.8% versus 7.6%, p = 0.013), and death (2.3% versus 4.3%, p = 0.202) in patients who had COVID-19 were lower in patients who received vaccination prior to infection. In adjusted logistic regression analysis, not having at least one COVID-19 vaccine significantly increased the odds of hospitalization and ICU admission. CONCLUSION: Vaccination for COVID-19 in the IEI population appears safe and attenuates COVID-19 severity.

A Heterozygous Gain-of-Function Variant in IKBKB Associated with Autoimmunity and Autoinflammation.

PURPOSE: Biallelic loss-of-function variants in IKBKB cause severe combined immunodeficiency. We describe a case of autoimmunity and autoinflammation in a male infant with a heterozygous gain-of-function (GOF) IKBKB variant. METHODS: Case report and review of the literature. We performed in silico variant analysis, measurement of plasma soluble biomarkers associated with immune activation, functional stimulation of patient peripheral blood mononuclear cells, and functional validation of variants transduced in Jurkat cells. RESULTS: A patient with two heterozygous IKBKB variants (E518K and T559M) presents with previously undescribed autoimmune cytopenias and autoinflammation. He had decreased TNF-α-induced IkBα degradation in vitro, and had increased serum biomarkers associated with macrophage recruitment and activation. Jurkat cells transduced with the IKKb T559M variant showed increased basal levels of phosphorylation of IKKα/b and p65, and higher degradation of IkBα suggesting a GOF mechanism. No significant changes were observed in Jurkat cells transduced with the E518K variant. CONCLUSIONS: A GOF variant in IKBKB may associate with autoinflammation and autoimmunity highlighting a novel clinical phenotype.

Genetic obstacles to developing and tolerizing human B cells.

Early in development, B cells explosively diversify B-cell receptors (BCRs) to recognize a wide variety of microbial antigens. A variety of developmental and tolerance checkpoints are subsequently deployed at later developmental stages to purge useless or potentially dangerous autoreactive B-cell clones. Once B cells recognize cognate antigens within secondary lymphoid tissues, their BCRs are genetically modified to increase the specificity and strength of antigen binding. Identification and investigation of monogenic inborn errors of immunity (IEI) diseases demonstrate which specific molecules and pathways are essential for developing well-tolerized human B cells. Although rare, IEI patients have provided important mechanistic insights into, and therapeutic clues for, patients afflicted with more common autoantibody associated autoimmune diseases like lupus, rheumatoid arthritis, and type 1 diabetes. This article is categorized under: Immune System Diseases > Stem Cells and Development > Genetics/Genomics/Epigenetics.