Molecular diagnoses in the congenital malformations caused by ciliopathies cohort of the 100,000 Genomes Project

Sunayna Best, Jenny Lord, Matthew Roche, Christopher M Watson, James A Poulter, Roel P J Bevers, Alex Stuckey, Katarzyna Szymanska, Jamie M Ellingford, Jenny Carmichael, Helen Brittain, Carmel Toomes, Chris Inglehearn, Colin A Johnson, Gabrielle Wheway

Research output: Contribution to journalArticlepeer-review

Abstract

BACKGROUND Primary ciliopathies represent a group of inherited disorders due to defects in the primary cilium, the 'cell's antenna'. The 100,000 Genomes Project was launched in 2012 by Genomics England (GEL), recruiting National Health Service (NHS) patients with eligible rare diseases and cancer. Sequence data were linked to Human Phenotype Ontology (HPO) terms entered by recruiting clinicians. METHODS Eighty-three prescreened probands were recruited to the 100,000 Genomes Project suspected to have congenital malformations caused by ciliopathies in the following disease categories: Bardet-Biedl syndrome (n=45), Joubert syndrome (n=14) and 'Rare Multisystem Ciliopathy Disorders' (n=24). We implemented a bespoke variant filtering and analysis strategy to improve molecular diagnostic rates for these participants. RESULTS We determined a research molecular diagnosis for n=43/83 (51.8%) probands. This is 19.3% higher than previously reported by GEL (n=27/83 (32.5%)). A high proportion of diagnoses are due to variants in non-ciliopathy disease genes (n=19/43, 44.2%) which may reflect difficulties in clinical recognition of ciliopathies. n=11/83 probands (13.3%) had at least one causative variant outside the tiers 1 and 2 variant prioritisation categories (GEL's automated triaging procedure), which would not be reviewed in standard 100,000 Genomes Project diagnostic strategies. These include four structural variants and three predicted to cause non-canonical splicing defects. Two unrelated participants have biallelic likely pathogenic variants in LRRC45, a putative novel ciliopathy disease gene. CONCLUSION These data illustrate the power of linking large-scale genome sequence to phenotype information. They demonstrate the value of research collaborations in order to maximise interpretation of genomic data.
Original languageEnglish
Article numberjmedgenet-2021-108065
JournalJournal of Medical Genetics
Early online date29 Oct 2021
DOIs
Publication statusPublished - 29 Oct 2021

Keywords

  • and neonatal diseases and abnormalities
  • congenital
  • diagnosis
  • genetics
  • genomics
  • hereditary
  • medical

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