Identifying risk genes for embryo aneuploidy using ultra-low coverage whole-genome sequencing

Author:

Sun Siqi,Aboelenain Mansour,Ariad Daniel,Haywood Mary E.,Wageman Charles R.,Duke Marlena,Bag Aishee,Viotti Manuel,Katz-Jaffe Mandy,McCoy Rajiv C.,Schindler Karen,Xing Jinchuan

Abstract

AbstractBackgroundAneuploidy, the state of a cell containing extra or missing chromosomes, frequently arises during human meiosis and is the primary cause of early miscarriage and maternal age-related in vitro fertilization (IVF) failure. IVF patients exhibit significant variability in aneuploidy rates, although the exact genetic causes of the variability in aneuploid egg production remain unclear. Preimplantation genetic testing for aneuploidy (PGT-A) using ultra-low coverage whole-genome sequencing (ulc-WGS) is a standard test for identifying and selecting IVF-derived embryos with a normal chromosome complement. The wealth of embryo aneuploidy data and ulc-WGS data from PGT-A has potential for discovering variants in paternal genomes that are associated with aneuploidy risk in their embryos.MethodsUsing ulc-WGS data from ∼10,000 PGT-A biopsies, we imputed genotype likelihoods of genetic variants in parental genomes. We then used the imputed variants and aneuploidy calls from the embryos to perform a genome-wide association study of aneuploidy incidence. Finally, we carried out functional evaluation of the identified candidate gene in a mouse oocyte system.ResultsWe identified one locus on chromosome 3 that is significantly associated with maternal meiotic aneuploidy risk. One candidate gene,CCDC66,encompassed by this locus, is involved in chromosome segregation during meiosis. Using mouse oocytes, we showed that CCDC66 regulates meiotic progression and chromosome segregation fidelity, especially in older mice.ConclusionsOur work extended the research utility of PGT-A ulc-WGS data by allowing robust association testing and improved the understanding of the genetic contribution to maternal meiotic aneuploidy risk. Importantly, we introduce a generalizable method that can be leveraged for similar association studies using ulc-WGS data.

Publisher

Cold Spring Harbor Laboratory

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