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Use of genome sequencing to hunt for cryptic second-hit variants: analysis of 31 cases recruited to the 100 000 Genomes Project.

Authors :
Moore, A. Rachel
Jing Yu
Yang Pei
Cheng, Emily W. Y.
Taylor Tavares, Ana Lisa
Walker, Woolf T.
Thomas, N. Simon
Kamath, Arveen
Ibitoye, Rita
Josifova, Dragana
Wilsdon, Anna
Ross, Alison
Calder, Alistair D.
Offiah, Amaka C.
Wilkie, Andrew O. M.
Taylor, Jenny C.
Pagnamenta, Alistair T.
Source :
Journal of Medical Genetics; Dec2023, Vol. 60 Issue 12, p1235-1244, 22p
Publication Year :
2023

Abstract

Background Current clinical testing methods used to uncover the genetic basis of rare disease have inherent limitations, which can lead to causative pathogenic variants being missed. Within the rare disease arm of the 100 000 Genomes Project (100kGP), families were recruited under the clinical indication ’single autosomal recessive mutation in rare disease’. These participants presented with strong clinical suspicion for a specific autosomal recessive disorder, but only one suspected pathogenic variant had been identified through standard-of-care testing. Whole genome sequencing (WGS) aimed to identify cryptic ’second-hit’ variants. Methods To investigate the 31 families with available data that remained unsolved following formal review within the 100kGP, SVRare was used to aggregate structural variants present in <1% of 100kGP participants. Small variants were assessed using population allele frequency data and SpliceAI. Literature searches and publicly available online tools were used for further annotation of pathogenicity. Results Using these strategies, 8/31 cases were solved, increasing the overall diagnostic yield of this cohort from 10/41 (24.4%) to 18/41 (43.9%). Exemplar cases include a patient with cystic fibrosis harbouring a novel exonic LINE1 insertion in CFTR and a patient with generalised arterial calcification of infancy with complex interlinked duplications involving exons 2–6 of ENPP1. Although ambiguous by short-read WGS, the ENPP1 variant structure was resolved using optical genome mapping and RNA analysis. Conclusion Systematic examination of cryptic variants across a multi-disease cohort successfully identifies additional pathogenic variants. WGS data analysis in autosomal recessive rare disease should consider complex structural and small intronic variants as potentially pathogenic second hits. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00222593
Volume :
60
Issue :
12
Database :
Complementary Index
Journal :
Journal of Medical Genetics
Publication Type :
Academic Journal
Accession number :
174457977
Full Text :
https://doi.org/10.1136/jmg-2023-109362