| Literature DB >> 30010909 |
Dan Zhang1, Yifeng Liu1, Zhou Zhang2,3, Pingping Lv1, Yun Liu4, Jingyi Li1, Yiqing Wu1, Runjv Zhang1, Yun Huang1, Gufeng Xu1, Yeqing Qian1, Yuli Qian1, Songchang Chen1, Chenming Xu1, Jun Shen5, Linling Zhu1, Kai Chen1, Bo Zhu6, Xiaoqun Ye1, Yuchan Mao1, Xingsheng Bo6, Caiyun Zhou7, Tingting Wang1,8, Dianfu Chen9, Weijun Yang9, Yajing Tan1, Yang Song1, Daizhan Zhou4, Jianzhong Sheng1,10, Huijuan Gao1, Yimin Zhu1, Meigen Li1, Liping Wu1, Lin He1,2,4, Hefeng Huang1,11.
Abstract
Primary ovarian insufficiency (POI) leads to infertility and premature menopause in young women. The genetic etiology of this disorder remains unknown in most patients. Using whole exome sequencing of a large Chinese POI pedigree, we identified a heterozygous 5 bp deletion inducing a frameshift in BNC1, which is predicted to result in a non-sense-mediated decay or a truncated BNC1 protein. Sanger sequencing identified another BNC1 missense mutation in 4 of 82 idiopathic patients with POI, and the mutation was absent in 332 healthy controls. Transfection of recombinant plasmids with the frameshift mutant and separately with the missense mutant in HEK293T cells led to abnormal nuclear localization. Knockdown of BNC1 was found to reduce BMP15 and p-AKT levels and to inhibit meiosis in oocytes. A female mouse model of the human Bnc1 frameshift mutation exhibited infertility, significantly increased serum follicle-stimulating hormone, decreased ovary size and reduced follicle numbers, consistent with POI. We report haploinsufficiency of BNC1 as an etiology of human autosomal dominant POI.Entities:
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Year: 2018 PMID: 30010909 DOI: 10.1093/hmg/ddy261
Source DB: PubMed Journal: Hum Mol Genet ISSN: 0964-6906 Impact factor: 6.150