Frontiers in Immunology (May 2024)

Identification of the hybrid gene LILRB5-3 by long-read sequencing and implication of its novel signaling function

  • Kouyuki Hirayasu,
  • Kouyuki Hirayasu,
  • Kouyuki Hirayasu,
  • Kouyuki Hirayasu,
  • Seik-Soon Khor,
  • Seik-Soon Khor,
  • Yosuke Kawai,
  • Mihoko Shimada,
  • Yosuke Omae,
  • Gen Hasegawa,
  • Yuko Hashikawa,
  • Hiromu Tanimoto,
  • Jun Ohashi,
  • Kazuyoshi Hosomichi,
  • Atsushi Tajima,
  • Hiroyuki Nakamura,
  • Minoru Nakamura,
  • Minoru Nakamura,
  • Minoru Nakamura,
  • Minoru Nakamura,
  • Katsushi Tokunaga,
  • Rikinari Hanayama,
  • Rikinari Hanayama,
  • Rikinari Hanayama,
  • Rikinari Hanayama,
  • Masao Nagasaki,
  • Masao Nagasaki

DOI
https://doi.org/10.3389/fimmu.2024.1398935
Journal volume & issue
Vol. 15

Abstract

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Leukocyte immunoglobulin (Ig)-like receptors (LILRs) on human chromosome 19q13.4 encode 11 immunoglobulin superfamily receptors, exhibiting genetic diversity within and between human populations. Among the LILR genes, the genomic region surrounding LILRB3 and LILRA6 has yet to be fully characterized due to their significant sequence homology, which makes it difficult to differentiate between them. To examine the LILRB3 and LILRA6 genomic region, a tool named JoGo-LILR CN Caller, which can call copy number from short-read whole genome sequencing (srWGS) data, was applied to an extensive international srWGS dataset comprising 2,504 samples. During this process, a previously unreported loss of both LILRB3 and LILRA6 was detected in three samples. Using long-read sequencing of these samples, we have discovered a novel large deletion (33,692 bp) in the LILRB3 and LILRA6 genomic regions in the Japanese population. This deletion spanned three genes, LILRB3, LILRA6, and LILRB5, resulting in LILRB3 exons 12-13 being located immediately downstream of LILRB5 exons 1-12 with the loss of LILRA6, suggesting the potential expression of a hybrid gene between LILRB5 and LILRB3 (LILRB5-3). Transcription and subsequent translation of the LILRB5-3 hybrid gene were also verified. The hybrid junction was located within the intracellular domain, resulting in an LILRB5 extracellular domain fused to a partial LILRB3 intracellular domain with three immunoreceptor tyrosine-based inhibitory motifs (ITIMs), suggesting that LILRB5-3 acquired a novel signaling function. Further application of the JoGo-LILR tool to srWGS samples suggested the presence of the LILRB5-3 hybrid gene in the CEU population. Our findings provide insight into the genetic and functional diversity of the LILR family.

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