Burden of Mendelian disorders in a large Middle Eastern biobank
Background
Genome sequencing of large biobanks from under-represented ancestries provides a valuable resource for the interrogation of Mendelian disease burden at world population level, complementing small-scale familial studies.
Methods
Here, we interrogate 6045 whole genomes from Qatar—a Middle Eastern population with high consanguinity and understudied mutational burden—enrolled at the national Biobank and phenotyped for 58 clinically-relevant quantitative traits. We examine a curated set of 2648 Mendelian genes from 20 panels, annotating known and novel pathogenic variants and assessing their penetrance and impact on the measured traits.
Results
We find that 62.5% of participants are carriers of at least 1 known pathogenic variant relating to recessive conditions, with homozygosity observed in 1 in 150 subjects (0.6%) for which Peninsular Arabs are particularly enriched versus other ancestries (5.8-fold). On average, 52.3 loss-of-function variants were found per genome, 6.5 of which affect a known Mendelian gene. Several variants annotated in ClinVar/HGMD as pathogenic appeared at intermediate frequencies in this cohort (1–3%), highlighting Arab founder effect, while others have exceedingly high frequencies (> 5%) prompting reconsideration as benign. Furthermore, cumulative gene burden analysis revealed 56 genes having gene carrier frequency > 1/50, including 5 ACMG Tier 3 panel genes which would be candidates for adding to newborn screening in the country. Additionally, leveraging 58 biobank traits, we systematically assess the impact of novel/rare variants on phenotypes and discover 39 candidate large-effect variants associating with extreme quantitative traits. Furthermore, through rare variant burden testing, we discover 13 genes with high mutational load, including 5 with impact on traits relevant to disease conditions, including metabolic disorder and type 2 diabetes, consistent with the high prevalence of these conditions in the region.
Conclusions
This study on the first phase of the growing Qatar Genome Program cohort provides a comprehensive resource from a Middle Eastern population to understand the global mutational burden in Mendelian genes and their impact on traits in seemingly healthy individuals in high consanguinity settings.
Other Information
Published in: Genome Medicine
License: https://creativecommons.org/licenses/by/4.0
See article on publisher's website: https://dx.doi.org/10.1186/s13073-024-01307-6
Funding
Qatar National Research Fund (NPRP10-1219-160035), Building haplotype-resolved denovo genome maps for Qatari family trios with severe developmental disorders as a premium resource to enhance diagnosis & uncover their etiology in the Qatari population.
Qatar National Research Fund (NPRP10-0202-170320), The BARAKA -Qatar Study: Building A national Resource for the Advancement of Knowledge of Autism in Qatar.
Qatar National Research Fund (NPRP11S-0110-180250), The PMED-Qatar Study: Personalized Molecular Evaluation and Diagnosis for Rare Diseases in Qatar.
History
Language
- English
Publisher
Springer NaturePublication Year
- 2024
License statement
This Item is licensed under the Creative Commons Attribution 4.0 International License.Institution affiliated with
- Hamad Bin Khalifa University
- College of Health and Life Sciences - HBKU
- Hamad Medical Corporation
- Qatar Metabolic Institute - HMC
- Sidra Medicine
- Clinical Research Centre - Sidra Medicine
- Qatar University
- Qatar University Health - QU
- College of Health Sciences - QU HEALTH
- Weill Cornell Medicine - Qatar
