缺氧和低血糖协同调节信使核糖核酸稳定性。

Hypoxia and Hypoglycemia synergistically regulate mRNA stability.

作者信息

Carraway Kristen R, Johnson Ellen M, Kauffmann Travis C, Fry Nate J, Mansfield Kyle D

机构信息

a Biochemistry and Molecular Biology, Brody School of Medicine , East Carolina University , Greenville , NC , USA.

b Brody School of Medicine , East Carolina University , Greenville , NC , USA.

出版信息

RNA Biol. 2017 Jul 3;14(7):938-951. doi: 10.1080/15476286.2017.1311456. Epub 2017 Mar 31.

DOI:10.1080/15476286.2017.1311456

PMID:28362162

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5546718/

Abstract

Ischemic events, common in many diseases, result from decreased blood flow and impaired delivery of oxygen and glucose to tissues of the body. While much is known about the cellular transcriptional response to ischemia, much less is known about the posttranscriptional response to oxygen and glucose deprivation. The goal of this project was to investigate one such posttranscriptional response, the regulation of mRNA stability. To that end, we have identified several novel ischemia-related mRNAs that are synergistically stabilized by oxygen and glucose deprivation including VEGF, MYC, MDM2, and CYR61. This increase in mRNA half-life requires the synergistic effects of both low oxygen (1%) as well as low glucose (≤ 1 g/L) conditions. Oxygen or glucose deprivation alone fails to initiate the response, as exposure to either high glucose (4 g/L) or normoxic conditions inhibits the response. Furthermore, in response to hypoxia/hypoglycemia, the identified mRNAs are released from the RNA binding protein KHSRP which likely contributes to their stabilization.

摘要

缺血事件在许多疾病中都很常见，是由血流量减少以及氧气和葡萄糖向身体组织的输送受损所致。虽然我们对细胞对缺血的转录反应了解很多，但对缺氧和缺糖后的转录后反应了解却少得多。本项目的目标是研究一种这样的转录后反应，即mRNA稳定性的调节。为此，我们已经鉴定出几种新的与缺血相关的mRNA，它们在缺氧和缺糖的情况下会协同稳定，包括血管内皮生长因子（VEGF）、原癌基因（MYC）、鼠双微体2（MDM2）和富含半胱氨酸的血管生成素（CYR61）。mRNA半衰期的这种增加需要低氧（1%）和低糖（≤1克/升）条件的协同作用。单独的缺氧或缺糖都无法引发这种反应，因为暴露于高糖（4克/升）或常氧条件下会抑制这种反应。此外，作为对缺氧/低血糖的反应，已鉴定出的mRNA从RNA结合蛋白KHSRP中释放出来，这可能有助于它们的稳定。

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缺氧和低血糖协同调节信使核糖核酸稳定性。

Hypoxia and Hypoglycemia synergistically regulate mRNA stability.

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