Stanniocalcin-1 通过 AMPK 通路保护星形胶质细胞免受缺氧损伤。

Stanniocalcin-1 Protected Astrocytes from Hypoxic Damage Through the AMPK Pathway.

机构信息

Institute of Medicine and Equipment for High Altitude Region, College of High Altitude Military Medicine, Army Medical University, Chongqing, China.

Key Laboratory of Extreme Environmental Medicine, Ministry of Education of China, Chongqing, China.

出版信息

Neurochem Res. 2021 Nov;46(11):2948-2957. doi: 10.1007/s11064-021-03393-z. Epub 2021 Jul 15.

DOI:10.1007/s11064-021-03393-z

PMID:34268656

Abstract

Our previous studies revealed that the expression of stanniocalcin-1 (STC1) in astrocytes increased under hypoxic conditions. However, the role of STC1 in hypoxic astrocytes is not well understood. In this work, we first showed the increased expression of STC1 in astrocyte cell line and astrocytes in the brain tissues of mice after exposure to hypoxia. Then, we found that knockdown of STC1 inhibited cell viability and increased apoptosis. These effects were mediated by decreasing the levels of SIRT3, UCP2, and glycolytic genes and increasing the levels of ROS. Further studies suggested that STC1 silencing promoted oxidative stress and suppressed glycolysis by downregulating AMPKα1. Moreover, HIF-1α knockdown in hypoxic astrocytes led to decreased expression of STC1 and AMPKα1, indicating that the expression of STC1 was regulated by HIF-1α. In conclusion, our study showed that HIF-1α-induced STC1 could protect astrocytes from hypoxic damage by regulating glycolysis and redox homeostasis in an AMPKα1-dependent manner.

摘要

我们之前的研究表明，在缺氧条件下，星形胶质细胞中的 STC1（stanniocalcin-1）表达增加。然而，STC1 在缺氧星形胶质细胞中的作用尚不清楚。在这项工作中，我们首先表明，在暴露于缺氧后，星形胶质细胞系和小鼠脑组织中的星形胶质细胞中 STC1 的表达增加。然后，我们发现敲低 STC1 会抑制细胞活力并增加细胞凋亡。这些作用是通过降低 SIRT3、UCP2 和糖酵解基因的水平以及增加 ROS 的水平来介导的。进一步的研究表明，STC1 沉默通过下调 AMPKα1 促进氧化应激和抑制糖酵解。此外，在缺氧星形胶质细胞中敲低 HIF-1α 导致 STC1 和 AMPKα1 的表达减少，表明 STC1 的表达受 HIF-1α 调节。总之，我们的研究表明，HIF-1α 诱导的 STC1 可以通过依赖于 AMPKα1 的方式调节糖酵解和氧化还原稳态来保护星形胶质细胞免受缺氧损伤。

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Stanniocalcin-1 通过 AMPK 通路保护星形胶质细胞免受缺氧损伤。

Stanniocalcin-1 Protected Astrocytes from Hypoxic Damage Through the AMPK Pathway.

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