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Different classes of genomic inserts contribute to human antibody diversity.

Mikhail Y LebedinMathilde FoglieriniSvetlana KhorkovaClara Vázquez GarcíaChristoph RatswohlAlexey N DavydovMaria A TurchaninovaClaudia A DaubenbergerDmitriy M ChudakovAntonio LanzavecchiaKathrin de la Rosa
Published in: Proceedings of the National Academy of Sciences of the United States of America (2022)
Recombination of antibody genes in B cells can involve distant genomic loci and contribute a foreign antigen-binding element to form hybrid antibodies with broad reactivity for Plasmodium falciparum . So far, antibodies containing the extracellular domain of the LAIR1 and LILRB1 receptors represent unique examples of cross-chromosomal antibody diversification. Here, we devise a technique to profile non-VDJ elements from distant genes in antibody transcripts. Independent of the preexposure of donors to malaria parasites, non-VDJ inserts were detected in 80% of individuals at frequencies of 1 in 10 4 to 10 5 B cells. We detected insertions in heavy, but not in light chain or T cell receptor transcripts. We classify the insertions into four types depending on the insert origin and destination: 1) mitochondrial and 2) nuclear DNA inserts integrated at VDJ junctions; 3) inserts originating from telomere proximal genes; and 4) fragile sites incorporated between J-to-constant junctions. The latter class of inserts was exclusively found in memory and in in vitro activated B cells, while all other classes were already detected in naïve B cells. More than 10% of inserts preserved the reading frame, including transcripts with signs of antigen-driven affinity maturation. Collectively, our study unravels a mechanism of antibody diversification that is layered on the classical V(D)J and switch recombination.
Keyphrases
  • plasmodium falciparum
  • genome wide
  • copy number
  • single molecule
  • lymph node
  • dna damage
  • oxidative stress
  • genome wide identification
  • gene expression
  • binding protein
  • circulating tumor
  • dna binding
  • genome wide analysis