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长期 IGF-I 暴露会降低自噬和细胞活力。

Long-term IGF-I exposure decreases autophagy and cell viability.

机构信息

Department of Pathology, Drexel University College of Medicine, Philadelphia, Pennsylvania, USA.

出版信息

PLoS One. 2010 Sep 7;5(9):e12592. doi: 10.1371/journal.pone.0012592.

DOI:10.1371/journal.pone.0012592
PMID:20830296
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2935370/
Abstract

A reduction in IGF-I signaling has been found to increase lifespan in multiple organisms despite the fact that IGF-I is a trophic factor for many cell types and has been found to have protective effects against multiple forms of damage in acute settings. The increase in longevity seen in response to reduced IGF-I signaling suggests that there may be differences between the acute and chronic impact of IGF-I signaling. We have examined the possibility that long-term stimulation with IGF-I may have a negative impact at the cellular level using quiescent human fibroblasts. We find that fibroblast cells exposed to IGF-I for 14 days have reduced long-term viability as judged by colony forming assays, which is accompanied by an accumulation of senescent cells. In addition we observe an accumulation of cells with depolarized mitochondria and a reduction in autophagy in the long-term IGF-I treated cultures. An examination of mice with reduced IGF-I levels reveals evidence of enhanced autophagy and fibroblast cells derived from these mice have a larger mitochondrial mass relative to controls indicating that changes in mitochondrial turnover occurs in animals with reduced IGF-I. The results indicate that chronic IGF-I stimulation leads to mitochondrial dysfunction and reduced cell viability.

摘要

已发现,IGF-I 信号的减少会增加多种生物的寿命,尽管 IGF-I 是许多细胞类型的营养因子,并已发现其在急性情况下对多种形式的损伤具有保护作用。尽管 IGF-I 信号减少会导致寿命延长,但这表明 IGF-I 信号的急性和慢性影响可能存在差异。我们使用静止的人成纤维细胞研究了 IGF-I 长期刺激在细胞水平上可能产生负面影响的可能性。我们发现,通过集落形成测定法判断,暴露于 IGF-I 14 天的成纤维细胞的长期存活能力降低,这伴随着衰老细胞的积累。此外,我们观察到在长期 IGF-I 处理的培养物中,线粒体去极化的细胞积累和自噬减少。对 IGF-I 水平降低的小鼠的检查显示出增强的自噬的证据,并且源自这些小鼠的成纤维细胞相对于对照具有更大的线粒体质量,表明在 IGF-I 降低的动物中发生了线粒体周转率的变化。结果表明,慢性 IGF-I 刺激会导致线粒体功能障碍和细胞活力降低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/72ff/2935370/d16be8d4e67a/pone.0012592.g008.jpg
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