缺氧通过限制活性氧生成来下调过度的自噬，从而促进血清剥夺条件下髓核细胞的存活。

Hypoxia facilitates the survival of nucleus pulposus cells in serum deprivation by down-regulating excessive autophagy through restricting ROS generation.

作者信息

Chen Jiang-Wei, Ni Bin-Bin, Zheng Xin-Feng, Li Bo, Jiang Sheng-Dan, Jiang Lei-Sheng

机构信息

Department of Orthopedic Surgery, Xinhua Hospital, Shanghai Jiaotong University School of Medicine, 1665 Kongjiang Road, Shanghai 200092, China.

出版信息

Int J Biochem Cell Biol. 2015 Feb;59:1-10. doi: 10.1016/j.biocel.2014.11.009. Epub 2014 Nov 29.

DOI:10.1016/j.biocel.2014.11.009

PMID:25456445

Abstract

Nucleus pulposus (NP) cells reside in a hypoxic environment in vivo, while the mechanisms of how NP cells maintain survival under hypoxia are not clear. Autophagy is an important physiological response to hypoxia and implicated in the survival regulation in most types of cells. This study was designed to investigate the role of autophagy in the survival of NP cells under hypoxia. We found that appropriate autophagy activity was beneficial to the survival of NP cells in serum deprivation, while excessive autophagy led to death of the NP cells. Hypoxia facilitated the survival of NP cells in serum deprivation by down-regulating excessive autophagy. Hypoxia down-regulated the autophagy activity of NP cells through restricting the production of reactive oxygen species (ROS) and inactivating the AMPK/mTOR signaling pathway, and possibly through a pathway involving HIF-1α. We believed that understanding the autophagy response of NP cells to hypoxia and its role in cell survival had important clinical significance in the prevention and treatment of degenerative discogenic diseases.

摘要

髓核（NP）细胞在体内处于低氧环境中，然而NP细胞在低氧条件下维持存活的机制尚不清楚。自噬是对低氧的一种重要生理反应，并且在大多数类型细胞的存活调节中发挥作用。本研究旨在探讨自噬在低氧条件下NP细胞存活中的作用。我们发现，适当的自噬活性有利于血清剥夺条件下NP细胞的存活，而过度自噬则导致NP细胞死亡。低氧通过下调过度自噬促进血清剥夺条件下NP细胞的存活。低氧通过限制活性氧（ROS）的产生和使AMPK/mTOR信号通路失活，可能还通过涉及HIF-1α的途径下调NP细胞的自噬活性。我们认为，了解NP细胞对低氧的自噬反应及其在细胞存活中的作用在退行性椎间盘源性疾病的预防和治疗中具有重要的临床意义。

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缺氧通过限制活性氧生成来下调过度的自噬，从而促进血清剥夺条件下髓核细胞的存活。

Hypoxia facilitates the survival of nucleus pulposus cells in serum deprivation by down-regulating excessive autophagy through restricting ROS generation.

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