Epigenetics, ovarian cell plasticity, and platelet-rich plasma: Mechanistic theories.

E Scott Sills, Samuel H Wood
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引用次数: 2

Abstract

Ovarian platelet-rich plasma (PRP) is claimed to restore the fertility potential by improving reserve, an effect perhaps mediated epigenetically by platelet-discharged regulatory elements rather than gonadotropin-activated G-protein coupled receptors, as with stimulated in vitro fertilization (IVF). The finding that fresh activated platelet releasate includes factors able to promote developmental signaling networks necessary to enable cell pluripotency tends to support this theory. The mechanistic uncertainty of intraovarian PRP notwithstanding, at least two other major challenges confront this controversial intervention. The first challenge is to clarify how perimenopausal ovarian function is reset to levels consistent with ovulation. Perhaps a less obvious secondary problem is to confine this renewal such that any induced recalibration of cellular plasticity is kept within acceptable physiologic bounds. Thus, any 'drive' to ovarian rejuvenation must incorporate both accelerator and brake. Ovarian aging may be best viewed as a safeguard against pathologic overgrowth, where senescence operates as an evolved tumor-suppression response. While most ovary cells reach the close of their metabolic life span with low risk for hypertrophy, enhanced lysosomal activity and the proinflammatory 'senescence-associated secretory phenotype' usually offsets this advantage over time. But is recovery of ovarian fitness possible, even if only briefly prior to IVF? Alterations in gap junctions, bio-conductive features, and modulation of gene regulatory networks after PRP use in other tissues are discussed here alongside early data reported from reproductive medicine.

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表观遗传学、卵巢细胞可塑性和富血小板血浆:机制理论。
卵巢富血小板血浆(PRP)被认为可以通过改善储备来恢复生育能力,这一作用可能是由血小板排出的调节元件介导的,而不是促性腺激素激活的g蛋白偶联受体,如体外受精(IVF)。新鲜活化血小板释放包括能够促进细胞多能性所需的发育信号网络的因子,这一发现倾向于支持这一理论。尽管卵巢内PRP的机制不确定,但至少有两个其他主要挑战面临着这种有争议的干预。第一个挑战是澄清如何将围绝经期卵巢功能重置到与排卵一致的水平。也许一个不太明显的次要问题是限制这种更新,使任何诱导的细胞可塑性的重新校准保持在可接受的生理范围内。因此,任何卵巢年轻化的“驱动”都必须同时包含加速器和刹车。卵巢老化可能最好被视为防止病理性过度生长的保障,其中衰老作为一种进化的肿瘤抑制反应。虽然大多数卵巢细胞在其代谢寿命结束时肥厚的风险较低,但随着时间的推移,溶酶体活性的增强和促炎的“衰老相关分泌表型”通常会抵消这种优势。但是卵巢健康是否有可能恢复,即使只是在试管受精之前的短暂恢复?在其他组织中使用PRP后,缝隙连接的改变、生物传导性特征和基因调控网络的调节在这里与生殖医学报告的早期数据一起讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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