Verlinden Stef F
YOXLO B.V., Leiden, Netherlands.
Front Aging. 2024 Sep 5;5:1452453. doi: 10.3389/fragi.2024.1452453. eCollection 2024.
Despite extensive research into extending human healthspan (HS) and compressing morbidity, the mechanisms underlying aging remain elusive. However, a better understanding of the genetic advantages responsible for the exceptional HS of healthy centenarians (HC), who live in good physical and mental health for one hundred or more years, could lead to innovative health-extending strategies. This review explores the role of NLRP3, a critical component of innate immunity that significantly impacts aging. It is activated by pathogen-associated signals and self-derived signals that increase with age, leading to low-grade inflammation implicated in age-related diseases. Furthermore, NLRP3 functions upstream in several molecular aging pathways, regulates cellular senescence, and may underlie the robust health observed in HC. By targeting NLRP3, mice exhibit a phenotype akin to that of HC, the HS of monkeys is extended, and aging symptoms are reversed in humans. Thus, targeting NLRP3 could offer a promising approach to extend HS. Additionally, a paradigm shift is proposed. Given that the HS of the broader population is 30 years shorter than that of HC, it is postulated that they suffer from a form of accelerated aging. The term 'auto-aging' is suggested to describe accelerated aging driven by NLRP3.
尽管在延长人类健康寿命(HS)和缩短发病期方面进行了广泛研究,但衰老的潜在机制仍然难以捉摸。然而,更好地理解健康的百岁老人(HC)拥有超长健康寿命的遗传优势,这些老人能保持身心健康长达百年或更久,可能会带来创新的健康延长策略。本综述探讨了NLRP3的作用,NLRP3是固有免疫的关键组成部分,对衰老有显著影响。它由病原体相关信号和随着年龄增长而增加的自身衍生信号激活,导致与年龄相关疾病相关的低度炎症。此外,NLRP3在几个分子衰老途径中起上游作用,调节细胞衰老,可能是HC所观察到的强健健康状态的基础。通过靶向NLRP3,小鼠表现出与HC相似的表型,猴子的健康寿命得以延长,人类的衰老症状得到逆转。因此,靶向NLRP3可能为延长健康寿命提供一种有前景的方法。此外,还提出了一种范式转变。鉴于普通人群的健康寿命比HC短30年,据推测他们患有某种形式的加速衰老。建议用“自老化”一词来描述由NLRP3驱动的加速衰老。
