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The Interplay between Telomeres, Mitochondria, and Chronic Stress Exposure in the Aging Egg

Aksinya Derevyanko, Agnieszka Skowrońska, Mariusz T. Skowroński, Paweł Kordowitzki

2022Cells20 citationsDOIOpen Access PDF

Abstract

While at the organismal level, biological aging can be estimated by telomere length and DNA methylation signatures, reliable biomarkers that can predict reproductive age are much needed to gauge the quality of an oocyte. Reproductive medicine and fertility centers often merely quantitate the ovarian reserve to predict the likelihood of fertilization and pregnancy in women of advanced reproductive age. It is highly important to address the level of age-related decline in oocyte quality since it leads to an increased risk of miscarriages and aneuploidy. Conversely, the pathways behind oocyte aging remain, in large part, elusive. Telomere shortening upon chronic stress exposure regulates mitochondria function and biogenesis by various pathways; therefore, establishing a link between these two important players and extrapolating them for the aging of oocytes will be the purpose of our commentary.

Topics & Concepts

TelomereOocyteBiologyAdvanced maternal ageBiogenesisInfertilityMitochondrionSenescenceReproductive medicineAndrologyPregnancyPhysiologyGeneticsMedicineEmbryoFetusDNAGeneGenetics, Aging, and Longevity in Model OrganismsTelomeres, Telomerase, and SenescenceTissue Engineering and Regenerative Medicine
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