Institute of Reproductive and Stem Cell Engineering, School of Basic Medical Science, Central South University, Changsha, China.
Clinical Research Center for Reproduction and Genetics in Hunan Province, Reproductive and Genetic Hospital of CITIC-Xiangya, Changsha, China.
Mol Hum Reprod. 2022 May 27;28(6). doi: 10.1093/molehr/gaac015.
Meiosis is pivotal to gametogenesis and fertility. Meiotic recombination is a mandatory process that ensures faithful chromosome segregation and generates genetic diversity in gametes. Non-obstructive azoospermia (NOA) caused by meiotic arrest is a common cause of male infertility and has many genetic origins, including chromosome abnormalities, Y chromosome microdeletion and monogenic mutations. However, the genetic causes of the majority of NOA cases remain to be elucidated. Here, we report our findings of three Shortage in chiasmata 1 (SHOC1) bi-allelic variants in three NOA patients, of which two are homozygous for the same loss-of-function variant (c.231_232del: p.L78Sfs*9), and one is heterozygous for two different missense variants (c.1978G>A: p.A660T; c.4274G>A: p.R1425H). Testicular biopsy of one patient revealed impairment of spermatocyte maturation. Both germ-cell-specific and general Shoc1-knockout mice exhibited similar male infertility phenotypes. Subsequent analysis revealed comprehensive defects in homologous pairing and synapsis along with abnormal expression of DMC1, RAD51 and RPA2 in Shoc1-defective spermatocyte spreads. These findings imply that SHOC1 may have a presynaptic function during meiotic recombination apart from its previously identified role in crossover formation. Overall, our results provide strong evidence for the clinical relevance of SHOC1 mutations in patients with NOA and contribute to a deeper mechanistic understanding of the role of SHOC1 during meiotic recombination.
减数分裂对配子发生和生育能力至关重要。减数分裂重组是一个强制性过程,可确保染色体正确分离,并在配子中产生遗传多样性。由减数分裂阻滞引起的非阻塞性无精子症(NOA)是男性不育的常见原因,其具有许多遗传起源,包括染色体异常、Y 染色体微缺失和单基因突变。然而,大多数 NOA 病例的遗传原因仍有待阐明。在这里,我们报告了在 3 名 NOA 患者中发现的 3 个 Shortage in chiasmata 1(SHOC1)双等位基因变异,其中 2 名患者携带相同的功能丧失变异(c.231_232del:p.L78Sfs*9)纯合子,1 名患者携带两个不同错义变异(c.1978G>A:p.A660T;c.4274G>A:p.R1425H)的杂合子。一名患者的睾丸活检显示精母细胞成熟受损。生殖细胞特异性和一般 Shoc1 敲除小鼠均表现出类似的男性不育表型。随后的分析显示,Shoc1 缺陷精母细胞扩散中存在同源配对和联会的全面缺陷,以及 DMC1、RAD51 和 RPA2 的异常表达。这些发现表明,SHOC1 在减数分裂重组中可能具有突触前功能,除了其先前在交叉形成中确定的作用之外。总体而言,我们的结果为 SHOC1 突变在 NOA 患者中的临床相关性提供了有力证据,并为 SHOC1 在减数分裂重组中的作用提供了更深入的机制理解。
