TCTP overexpression reverses age‐associated telomere attrition by upregulating telomerase activity in mouse oocytes

Abstract: A prolonged time span between ovulation and fertilization can cause postovulatory aging of oocytes, which impairs oocyte quality and subsequent embryo development. Telomere attrition has long been considered as the primary hallmark of aging or the cause of age-associated diseases. However, the status of telomere and its regulation during postovulatory oocyte aging are poorly understood. Here we found that oocytes experience telomere shortening during postovulatory aging, although they have the capacity to main… Show more

“…Sperms harbor the longest telomeres in the body, which are continuously generated by a telomerase-active progenitor, spermatogonia, throughout the male's lifespan. In contrast, the telomerase activity in the female germline is initially low and decreases following the initiation of meiotic arrest (Liu et al, 2007;Jeon et al, 2022). Otherwise, telomere attrition may still occur due to the presence of ROS (Kordowitzki, 2021).…”

Effects of reactive oxygen species and mitochondrial dysfunction on reproductive aging

“…Sperms harbor the longest telomeres in the body, which are continuously generated by a telomerase-active progenitor, spermatogonia, throughout the male's lifespan. In contrast, the telomerase activity in the female germline is initially low and decreases following the initiation of meiotic arrest (Liu et al, 2007;Jeon et al, 2022). Otherwise, telomere attrition may still occur due to the presence of ROS (Kordowitzki, 2021).…”

Effects of reactive oxygen species and mitochondrial dysfunction on reproductive aging

Telomere Elongation During Pre-Implantation Embryo Development

The impact of maternal age on aneuploidy in oocytes: Reproductive consequences, molecular mechanisms, and future directions