AI Article Synopsis

  • Primary immunodeficiency (PID) leads to serious health issues like recurrent infections, autoimmune diseases, and cancers, presenting challenges for diagnosis and treatment, especially when patients are adults with no known family history.
  • A study analyzing whole-genome sequencing in 1,318 PID patients found that 10.3% had identified mutations in known genes, along with new candidate genes and deletions in regulatory regions that contribute to PID.
  • The research also explored the genetic interplay of high-penetrance variants with common variants, shedding light on how these factors affect the diverse symptoms and severity seen in PID, highlighting the potential of whole-genome sequencing in improving diagnosis and understanding of immune disorders.

Article Abstract

Primary immunodeficiency (PID) is characterized by recurrent and often life-threatening infections, autoimmunity and cancer, and it poses major diagnostic and therapeutic challenges. Although the most severe forms of PID are identified in early childhood, most patients present in adulthood, typically with no apparent family history and a variable clinical phenotype of widespread immune dysregulation: about 25% of patients have autoimmune disease, allergy is prevalent and up to 10% develop lymphoid malignancies. Consequently, in sporadic (or non-familial) PID genetic diagnosis is difficult and the role of genetics is not well defined. Here we address these challenges by performing whole-genome sequencing in a large PID cohort of 1,318 participants. An analysis of the coding regions of the genome in 886 index cases of PID found that disease-causing mutations in known genes that are implicated in monogenic PID occurred in 10.3% of these patients, and a Bayesian approach (BeviMed) identified multiple new candidate PID-associated genes, including IVNS1ABP. We also examined the noncoding genome, and found deletions in regulatory regions that contribute to disease causation. In addition, we used a genome-wide association study to identify loci that are associated with PID, and found evidence for the colocalization of-and interplay between-novel high-penetrance monogenic variants and common variants (at the PTPN2 and SOCS1 loci). This begins to explain the contribution of common variants to the variable penetrance and phenotypic complexity that are observed in PID. Thus, using a cohort-based whole-genome-sequencing approach in the diagnosis of PID can increase diagnostic yield and further our understanding of the key pathways that influence immune responsiveness in humans.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7334047PMC
http://dx.doi.org/10.1038/s41586-020-2265-1DOI Listing

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