[HTML][HTML] Pathogenic variants of meiotic double strand break (DSB) formation genes PRDM9 and ANKRD31 in premature ovarian insufficiency
Y Wang, T Guo, H Ke, Q Zhang, S Li, W Luo… - Genetics in Medicine, 2021 - nature.com
Y Wang, T Guo, H Ke, Q Zhang, S Li, W Luo, Y Qin
Genetics in Medicine, 2021•nature.comPurpose The etiology of premature ovarian insufficiency (POI) is heterogeneous, and
genetic factors account for 20–25% of the patients. The primordial follicle pool is determined
by the meiosis process, which is initiated by programmed DNA double strand breaks (DSB)
and homologous recombination. The objective of the study is to explore the role of DSB
formation genes in POI pathogenesis. Methods Variants in DSB formation genes were
analyzed from a database of exome sequencing in 1,030 patients with POI. The pathogenic …
genetic factors account for 20–25% of the patients. The primordial follicle pool is determined
by the meiosis process, which is initiated by programmed DNA double strand breaks (DSB)
and homologous recombination. The objective of the study is to explore the role of DSB
formation genes in POI pathogenesis. Methods Variants in DSB formation genes were
analyzed from a database of exome sequencing in 1,030 patients with POI. The pathogenic …
Purpose
The etiology of premature ovarian insufficiency (POI) is heterogeneous, and genetic factors account for 20–25% of the patients. The primordial follicle pool is determined by the meiosis process, which is initiated by programmed DNA double strand breaks (DSB) and homologous recombination. The objective of the study is to explore the role of DSB formation genes in POI pathogenesis.
Methods
Variants in DSB formation genes were analyzed from a database of exome sequencing in 1,030 patients with POI. The pathogenic effects of the potentially causative variants were verified by further functional studies.
Results
Three pathogenic heterozygous variants in PRDM9 and two in ANKRD31 were identified in seven patients. Functional studies showed the variants in PRDM9 impaired its methyltransferase activity, and the ANKRD31 variations disturbed its interaction with another DSB formation factor REC114 by haploinsufficiency effect, indicating the pathogenic effects of the two genes on ovarian function were dosage dependent.
Conclusion
Our study identified pathogenic variants of PRDM9 and ANKRD31 in POI patients, shedding new light on the contribution of meiotic DSB formation genes in ovarian development, further expanding the genetic architecture of POI.
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