Disease areas:
  • nutrition and metabolism
Last updated:
Author(s):
Yajie Zhao, Stasa Stankovic, Mine Koprulu, Eleanor Wheeler, Felix R. Day, Hana Lango Allen, Nicola D. Kerrison, Maik Pietzner, Po-Ru Loh, Nicholas J. Wareham, Claudia Langenberg, Ken K. Ong, John R. B. Perry
Publish date:
7 July 2021
Journal:
Nature Communications
PubMed ID:
34234147

Abstract

Mosaic loss of chromosome Y (LOY) in leukocytes is the most common form of clonal mosaicism, caused by dysregulation in cell-cycle and DNA damage response pathways. Previous genetic studies have focussed on identifying common variants associated with LOY, which we now extend to rarer, protein-coding variation using exome sequences from 82,277 male UK Biobank participants. We find that loss of function of two genes – CHEK2 and GIGYF1 – reach exome-wide significance. Rare alleles in GIGYF1 have not previously been implicated in any complex trait, but here loss-of-function carriers exhibit six-fold higher susceptibility to LOY (OR = 5.99 [3.04-11.81], p = 1.3 × 10−10). These same alleles are also associated with adverse metabolic health, including higher susceptibility to Type 2 Diabetes (OR = 6.10 [3.51-10.61], p = 1.8 × 10−12), 4 kg higher fat mass (p = 1.3 × 10−4), 2.32 nmol/L lower serum IGF1 levels (p = 1.5 × 10−4) and 4.5 kg lower handgrip strength (p = 4.7 × 10−7) consistent with proposed GIGYF1 enhancement of insulin and IGF-1 receptor signalling. These associations are mirrored by a common variant nearby associated with the expression of GIGYF1. Our observations highlight a potential direct connection between clonal mosaicism and metabolic health.

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