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高血糖对发育中鼠胚的差异自噬反应。

A differential autophagic response to hyperglycemia in the developing murine embryo.

机构信息

Department of Obstetrics and Gynecology, Washington University School of Medicine, 660 South Euclid Avenue, Campus Box 8064, Saint Louis, Missouri 63110, USA.

出版信息

Reproduction. 2011 May;141(5):607-15. doi: 10.1530/REP-10-0265. Epub 2011 Mar 2.

DOI:10.1530/REP-10-0265
PMID:21367963
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3831622/
Abstract

Autophagy is critical to the process of development because mouse models have shown that lack of autophagy leads to developmental arrest during the pre-implantation stage of embryogenesis. The process of autophagy is regulated through signaling pathways, which respond to the cellular environment. Therefore, any alteration in the environment may lead to the dysregulation of the autophagic process potentially resulting in cell death. Using both in vitro and in vivo models to study autophagy in the pre-implantation murine embryo, we observed that the cells respond to environmental stressors (i.e. hyperglycemic environment) by increasing activation of autophagy in a differential pattern within the embryo. This upregulation is accompanied by an increase in apoptosis, which appears to plateau at high concentrations of glucose. The activation of the autophagic pathway was further confirmed by an increase in GAPDH activity in both in vivo and in vitro hyperglycemic models, which has been linked to autophagy through the activation of the Atg12 gene. Furthermore, this increase in autophagy in response to a hyperglycemic environment was observed as early as the oocyte stage. In conclusion, in this study, we provided evidence for a differential response of elevated activation of autophagy in embryos and oocytes exposed to a hyperglycemic environment.

摘要

自噬对于发育过程至关重要,因为小鼠模型表明,缺乏自噬会导致胚胎发生的着床前阶段发育停滞。自噬过程通过信号通路调节,这些信号通路响应细胞环境。因此,环境的任何改变都可能导致自噬过程的失调,从而导致细胞死亡。我们使用体外和体内模型来研究着床前鼠胚中的自噬,观察到细胞通过在胚胎中以不同的模式增加自噬的激活来对环境应激源(例如高血糖环境)做出反应。这种上调伴随着细胞凋亡的增加,在高浓度葡萄糖下似乎达到平台期。自噬途径的激活通过体内和体外高血糖模型中 GAPDH 活性的增加进一步得到证实,GAPDH 活性通过激活 Atg12 基因与自噬相关。此外,在卵母细胞阶段就已经观察到对高血糖环境的这种自噬增加。总之,在这项研究中,我们提供了证据表明,在暴露于高血糖环境的胚胎和卵母细胞中,自噬的激活存在差异反应。

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