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Esculentoside A rescues granulosa cell apoptosis and folliculogenesis in mice with premature ovarian failure

Zhenteng Liu, Fenghua Li, Jingwen Xue, Meimei Wang, Shoucui Lai, Hongchu Bao, Shunzhi He

2020Aging32 citationsDOI

Abstract

roots, as a potential rescue agent for the apoptosis of granulosa cells. Our results revealed the rescue of normal body and ovary weights, normal ovarian histo-architecture of ovaries, and hormones levels with regular estrus cycle. Consistently, the expression of proliferating and anti-apoptotic markers, i.e. KI67 and BCL-2 in granulosa cells, was enhanced. Meanwhile, the expressions of pro-apoptotic markers, which were BAX and CASPASEs (CASPASE-9 and CASPASE-3), were prominently reduced in Esculentoside A-induced premature ovarian failure mice. Additionally, PPARγ, a potential therapeutic target, has also rescued its expression by treating the premature ovarian failure mice with Esculentoside A. Our results advocated that Esculentoside A could restore folliculogenesis in premature ovarian failure mice. Furthermore, it has the potential to be investigated as a therapeutic agent for premature ovarian failure.

Topics & Concepts

Premature ovarian failureFollicular atresiaFolliculogenesisOvaryFollicular phaseBiologyApoptosisOvarian follicleAtresiaEndocrinologyInternal medicineGranulosa cellEstrous cycleAndrologyCell biologyMedicineAnatomyGeneticsEmbryoCryopreservationReproductive Biology and FertilityOvarian cancer diagnosis and treatmentLipid metabolism and biosynthesis