低氧水平会增加牛颗粒细胞的增殖和代谢变化。

Low oxygen level increases proliferation and metabolic changes in bovine granulosa cells.

作者信息

Shiratsuki Shogo, Hara Tomotaka, Munakata Yasuhisa, Shirasuna Koumei, Kuwayama Takehito, Iwata Hisataka

机构信息

Laboratory of Animal Reproduction, Department of Animal Science, Tokyo University of Agriculture, 1737 Funako, Atsugi, Kanagawa, 243-0034, Japan.

出版信息

Mol Cell Endocrinol. 2016 Dec 5;437:75-85. doi: 10.1016/j.mce.2016.08.010. Epub 2016 Aug 9.

DOI:10.1016/j.mce.2016.08.010

PMID:27519633

Abstract

The present study addresses molecular backgrounds underlying low oxygen induced metabolic changes and 1.2-fold change in bovine granulosa cell (GCs) proliferation. RNA-seq revealed that low oxygen (5%) upregulated genes associated with HIF-1 and glycolysis and downregulated genes associated with mitochondrial respiration than that in high oxygen level (21%). Low oxygen level induced high glycolytic activity and low mitochondrial function and biogenesis. Low oxygen level enhanced GC proliferation with high expression levels of HIF-1, VEGF, AKT, mTOR, and S6RP, whereas addition of anti-VEGF antibody decreased cellular proliferation with low phosphorylated AKT and mTOR expression levels. Low oxygen level reduced SIRT1, whereas activation of SIRT1 by resveratrol increased mitochondrial replication and decreased cellular proliferation with reduction of phosphorylated mTOR. These results suggest that low oxygen level stimulates the HIF1-VEGF-AKT-mTOR pathway and up-regulates glycolysis, which contributes to GC proliferation, and downregulation of SIRT1 contributes to hypoxia-associated reduction of mitochondria and cellular proliferation.

摘要

本研究探讨了低氧诱导牛颗粒细胞（GCs）代谢变化及增殖1.2倍变化的分子机制。RNA测序显示，与高氧水平（21%）相比，低氧（5%）上调了与HIF-1和糖酵解相关的基因，下调了与线粒体呼吸相关的基因。低氧水平诱导了高糖酵解活性和低线粒体功能及生物合成。低氧水平通过HIF-1、VEGF、AKT、mTOR和S6RP的高表达促进GC增殖，而添加抗VEGF抗体则通过低磷酸化AKT和mTOR表达水平降低细胞增殖。低氧水平降低了SIRT1，而白藜芦醇激活SIRT1增加了线粒体复制并通过降低磷酸化mTOR减少了细胞增殖。这些结果表明，低氧水平刺激HIF1-VEGF-AKT-mTOR途径并上调糖酵解，这有助于GC增殖，而SIRT1的下调有助于缺氧相关的线粒体减少和细胞增殖。

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低氧水平会增加牛颗粒细胞的增殖和代谢变化。

Low oxygen level increases proliferation and metabolic changes in bovine granulosa cells.

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