秀丽隐杆线虫
生物
生殖系
长寿
突变体
模式生物
遗传学
表型
细胞生物学
配子发生
隐杆线虫病
突变
黑腹果蝇
有性生殖
生殖细胞
种系突变
适应(眼睛)
遗传筛选
TOR信号
实验进化
细胞代谢
遗传模型
繁殖
进化生物学
减数分裂
基因
干细胞
有机体
RNA干扰
突变积累
衰老
作者
Amaresh Chaturbedi,Siu Sylvia Lee
标识
DOI:10.1038/s41467-025-64341-x
摘要
Reproduction affects lifespan and fat metabolism across species, suggesting a shared regulatory axis. In Caenorhabditis elegans, ablation of germline stem cells leads to extended lifespan and increased fat storage. While many studies focus on germline-less glp-1(e2144) mutants, the hermaphroditic germline of C. elegans provides an excellent opportunity to study how distinct germline anomalies affect lifespan and fat metabolism. We compare metabolomic, transcriptomic, and genetic pathway differences among three sterile mutants: germline-less glp-1, feminized fem-3, and masculinized mog-3. All three accumulate excess fat and share expression changes in stress response and metabolism genes. However, glp-1 mutants exhibit the most robust lifespan extension, fem-3 mutants live longer only at certain temperatures, and mog-3 mutants are markedly short-lived. The extended lifespan in fem-3 mutants require daf-16/FOXO, as in glp-1 mutants. In contrast, daf-16 is dispensable for the already shortened lifespan of mog-3 mutants. Interestingly, mog-3 partially mimics male/mating-induced demise, offering a simplified model to study metabolic and reproductive trade-offs underlying this phenomenon. Our data indicate that disrupting specific germ cell populations leads to distinct and complex physiological and longevity outcomes. These findings highlight the importance of investigating sex-dependent differences and underlying mechanisms to fully understand and potentially modulate these relationships.
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