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Merck
  • A conserved KLF-autophagy pathway modulates nematode lifespan and mammalian age-associated vascular dysfunction.

A conserved KLF-autophagy pathway modulates nematode lifespan and mammalian age-associated vascular dysfunction.

Nature communications (2017-10-17)
Paishiun N Hsieh, Guangjin Zhou, Yiyuan Yuan, Rongli Zhang, Domenick A Prosdocimo, Panjamaporn Sangwung, Anna H Borton, Evgenii Boriushkin, Anne Hamik, Hisashi Fujioka, Ciaran E Fealy, John P Kirwan, Maureen Peters, Yuan Lu, Xudong Liao, Diana Ramírez-Bergeron, Zhaoyang Feng, Mukesh K Jain
摘要

Loss of protein and organelle quality control secondary to reduced autophagy is a hallmark of aging. However, the physiologic and molecular regulation of autophagy in long-lived organisms remains incompletely understood. Here we show that the Kruppel-like family of transcription factors are important regulators of autophagy and healthspan in C. elegans, and also modulate mammalian vascular age-associated phenotypes. Kruppel-like family of transcription factor deficiency attenuates autophagy and lifespan extension across mechanistically distinct longevity nematode models. Conversely, Kruppel-like family of transcription factor overexpression extends nematode lifespan in an autophagy-dependent manner. Furthermore, we show the mammalian vascular factor Kruppel-like family of transcription factor 4 has a conserved role in augmenting autophagy and improving vessel function in aged mice. Kruppel-like family of transcription factor 4 expression also decreases with age in human vascular endothelium. Thus, Kruppel-like family of transcription factors constitute a transcriptional regulatory point for the modulation of autophagy and longevity in C. elegans with conserved effects in the murine vasculature and potential implications for mammalian vascular aging.KLF family transcription factors (KLFs) regulate many cellular processes, including proliferation, survival and stress responses. Here, the authors position KLFs as important regulators of autophagy and lifespan in C. elegans, a role that may extend to the modulation of age-associated vascular phenotypes in mammals.

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Sigma-Aldrich
总蛋白提取细胞裂解缓冲液
Sigma-Aldrich
抗-肌动蛋白, α-平滑肌- Cy3抗体,小鼠单克隆, clone 1A4, purified from hybridoma cell culture