Chronic social stress induces p16-mediated senescent cell accumulation in mice.

IF 17 Q1 CELL BIOLOGY
Carey E Lyons, Jean Pierre Pallais, Seth McGonigle, Rachel P Mansk, Charles W Collinge, Matthew J Yousefzadeh, Darren J Baker, Patricia R Schrank, Jesse W Williams, Laura J Niedernhofer, Jan M van Deursen, Maria Razzoli, Alessandro Bartolomucci
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引用次数: 0

Abstract

Life stress can shorten lifespan and increase risk for aging-related diseases, but the biology underlying this phenomenon remains unclear. Here we assessed the effect of chronic stress on cellular senescence-a hallmark of aging. Exposure to restraint stress, a psychological non-social stress model, increased p21Cip1 exclusively in the brains of male, but not female mice, and in a p16Ink4a-independent manner. Conversely, exposure to chronic subordination stress (only males were tested) increased key senescent cell markers in peripheral blood mononuclear cells, adipose tissue and brain, in a p16Ink4a-dependent manner. p16Ink4a-positive cells in the brain of chronic subordination stress-exposed mice were primarily hippocampal and cortical neurons with evidence of DNA damage that could be reduced by p16Ink4a cell clearance. Clearance of p16Ink4a-positive cells was not sufficient to ameliorate the adverse effects of social stress on measured metrics of healthspan. Overall, our findings indicate that social stress induces an organ-specific and p16Ink4a-dependent accumulation of senescent cells, illuminating a fundamental way by which the social environment can contribute to aging.

慢性社会压力会诱导小鼠体内 p16 介导的衰老细胞积累。
生活压力会缩短人的寿命并增加患衰老相关疾病的风险,但这一现象背后的生物学原理仍不清楚。在这里,我们评估了慢性压力对细胞衰老(衰老的标志)的影响。束缚应激是一种心理上的非社会应激模型,它只增加雄性小鼠大脑中的 p21Cip1,而不增加雌性小鼠大脑中的 p21Cip1,并且与 p16Ink4a 无关。相反,暴露于慢性从属性压力(仅测试雄性小鼠)会增加外周血单核细胞、脂肪组织和大脑中的关键衰老细胞标志物,而这种增加是以 p16Ink4a 依赖性方式进行的。p16Ink4a阳性细胞的清除不足以改善社会应激对健康寿命测量指标的不利影响。总之,我们的研究结果表明,社会压力会诱导器官特异性的、依赖于 p16Ink4a 的衰老细胞积累,从而揭示了社会环境导致衰老的一种基本方式。
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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CiteScore
14.70
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