Institute of Pediatrics, Children's Hospital of Fudan University, the Shanghai Key Laboratory of Medical Epigenetics, the International Co-laboratory of Medical Epigenetics and Metabolism, the Ministry of Science and Technology, the Institutes of Biomedical Sciences, and the State Key Laboratory of Genetic Engineering, Fudan University, Shanghai 200032, China.
Reproductive Medicine Center, Shanghai Ninth Hospital, Shanghai Jiao Tong University, Shanghai 200011, China.
Am J Hum Genet. 2020 Jul 2;107(1):15-23. doi: 10.1016/j.ajhg.2020.05.001. Epub 2020 May 29.
Normal oocyte meiosis is a prerequisite for successful human reproduction, and abnormalities in the process will result in infertility. In 2016, we identified mutations in TUBB8 as responsible for human oocyte meiotic arrest. However, the underlying genetic factors for most affected individuals remain unknown. TRIP13, encoding an AAA-ATPase, is a key component of the spindle assembly checkpoint, and recurrent homozygous nonsense variants and a splicing variant in TRIP13 are reported to cause Wilms tumors in children. In this study, we identified homozygous and compound heterozygous missense pathogenic variants in TRIP13 responsible for female infertility mainly characterized by oocyte meiotic arrest in five individuals from four independent families. Individuals from three families suffered from oocyte maturation arrest, whereas the individual from the fourth family had abnormal zygote cleavage. All displayed only the infertility phenotype without Wilms tumors or any other abnormalities. In vitro and in vivo studies showed that the identified variants reduced the protein abundance of TRIP13 and caused its downstream molecule, HORMAD2, to accumulate in HeLa cells and in proband-derived lymphoblastoid cells. The chromosome mis-segregation assay showed that variants did not have any effects on mitosis. Injecting TRIP13 cRNA into oocytes from one affected individual was able to rescue the phenotype, which has implications for future therapeutic treatments. This study reports pathogenic variants in TRIP13 responsible for oocyte meiotic arrest, and it highlights the pivotal but different roles of TRIP13 in meiosis and mitosis. These findings also indicate that different dosage effects of mutant TRIP13 might result in two distinct human diseases.
正常卵母细胞减数分裂是人类成功繁殖的前提,该过程中的异常将导致不孕。2016 年,我们发现 TUBB8 突变可导致人类卵母细胞减数分裂阻滞。然而,大多数受影响个体的潜在遗传因素仍不清楚。TRIP13 编码 AAA-ATPase,是纺锤体组装检查点的关键组成部分,已有报道称 TRIP13 中的反复纯合无义变异和剪接变异可导致儿童肾母细胞瘤。在这项研究中,我们在五个来自四个独立家庭的个体中发现了 TRIP13 的纯合和复合杂合错义致病性变异,这些变异主要导致卵母细胞减数分裂阻滞,导致女性不孕。三个家庭的个体发生卵母细胞成熟阻滞,而第四个家庭的个体发生异常合子分裂。所有个体均仅表现出不孕表型,没有肾母细胞瘤或任何其他异常。体外和体内研究表明,鉴定出的变异降低了 TRIP13 的蛋白丰度,并导致其下游分子 HORMAD2 在 HeLa 细胞和先证者来源的淋巴母细胞中积累。染色体错误分离检测表明,变异对有丝分裂没有任何影响。将 TRIP13 cRNA 注射到受影响个体的卵母细胞中,能够挽救表型,这对未来的治疗方法具有重要意义。本研究报道了 TRIP13 的致病性变异可导致卵母细胞减数分裂阻滞,并强调了 TRIP13 在减数分裂和有丝分裂中具有关键但不同的作用。这些发现还表明,突变型 TRIP13 的不同剂量效应可能导致两种不同的人类疾病。