Recent Trends on Telomerase Activators, Sirtuin Activators, and Senolytics as a Potential Anti-aging Agent

Moon‐Moo Kim
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Abstract

All living organisms exhibit the characteristics of aging, such as skin wrinkle formation, muscle degeneration, cataracts, and hair graying as the number of aged cells increases over time. Senescence, which is known as a key cause of aging, is directly related to the aging of living organisms because cells are aged by external and internal factors and eventually cell proliferation is stopped. Senescence is caused by the gradual shortening of the telomere with cell division, and lifespan is determined by the length of the telomere. Recently, it has been found that the histone deacetylase, which can influence gene expression, is not only involved in yeast but also deeply involved in anti-aging mechanisms in both C. elegans and humans. It was also discovered that old cells play a decisive role in the aging phenomenon, and it has been reported that it is possible to promote the proliferation of young cells and delay aging by removing these senescent cells from the inside. Therefore, in order to develop potential anti-aging agents in the future, research should begin with an in-depth study of telomerase activators, sirtuin activators, and senolytics.
端粒酶激活剂、Sirtuin激活剂和抗衰老药物的研究进展
所有生物体都表现出衰老的特征,如皮肤皱纹的形成、肌肉退化、白内障和头发变白,因为衰老细胞的数量随着时间的推移而增加。被称为“衰老的主要原因”的衰老与生物体的衰老直接相关,因为细胞在外部和内部因素的作用下衰老,最终细胞增殖停止。衰老是由细胞分裂时端粒逐渐缩短引起的,而寿命是由端粒的长度决定的。近年来,研究发现,影响基因表达的组蛋白去乙酰化酶不仅参与酵母,而且深度参与秀丽隐杆线虫和人类的抗衰老机制。人们还发现,衰老细胞在衰老现象中起着决定性的作用,有报道称,通过从内部清除这些衰老细胞,可以促进年轻细胞的增殖,延缓衰老。因此,为了在未来开发潜在的抗衰老药物,研究应从深入研究端粒酶激活剂、sirtuin激活剂和抗衰老剂开始。
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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