Cordycepin Delays Postovulatory Aging of Oocytes Through Inhibition of Maternal MRNAs Degradation Via DCP1A Polyadenylation Suppression

Overview

Journal Cell Mol Life Sci

Publisher Springer

Specialty Biology

Date 2023 Nov 24

PMID 38001238

Authors

Chong Li

Ling Zhu

Jun-Xia Liu

Jing Guo

Juan Xie

Chun-Meng Shi

Qing-Yuan Sun

Guo-Ning Huang

Jing-Yu Li

Affiliations

Soon will be listed here.

Abstract

Postovulatory aging leads to the decline in oocyte quality and subsequent impairment of embryonic development, thereby reducing the success rate of assisted reproductive technology (ART). Potential preventative strategies preventing oocytes from aging and the associated underlying mechanisms warrant investigation. In this study, we identified that cordycepin, a natural nucleoside analogue, promoted the quality of oocytes aging in vitro, as indicated by reduced oocyte fragmentation, improved spindle/chromosomes morphology and mitochondrial function, as well as increased embryonic developmental competence. Proteomic and RNA sequencing analyses revealed that cordycepin inhibited the degradation of several crucial maternal proteins and mRNAs caused by aging. Strikingly, cordycepin was found to suppress the elevation of DCP1A protein by inhibiting polyadenylation during postovulatory aging, consequently impeding the decapping of maternal mRNAs. In humans, the increased degradation of DCP1A and total mRNA during postovulatory aging was also inhibited by cordycepin. Collectively, our findings demonstrate that cordycepin prevents postovulatory aging of mammalian oocytes by inhibition of maternal mRNAs degradation via suppressing polyadenylation of DCP1A mRNA, thereby promoting oocyte developmental competence.

Citing Articles

Multi-omics revealed that DCP1A and SPDL1 determine embryogenesis defects in postovulatory ageing oocytes.

Kong L, Gong Y, Wang Y, Yuan M, Liu W, Zhou H Cell Prolif. 2024; 58(3):e13766.

PMID: 39629683 PMC: 11882766. DOI: 10.1111/cpr.13766.

Single-Cell Multi-Omics Analysis of In Vitro Post-Ovulatory-Aged Oocytes Revealed Aging-Dependent Protein Degradation.

Guo Y, Gao M, Liu X, Zhang H, Wang Y, Yan T Mol Cell Proteomics. 2024; 24(1):100882.

PMID: 39571909 PMC: 11728983. DOI: 10.1016/j.mcpro.2024.100882.

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