Modulation of Heat Shock Factor 1 Activity through Silencing of Ser303/Ser307 Phosphorylation Supports a Metabolic Program Leading to Age-Related Obesity and Insulin Resistance

Jin Xiongjie; Qiao Aijun; Moskophidis DemetriusMivechi Nahid F.

首页> 外文期刊>Molecular and Cellular Biology >Modulation of Heat Shock Factor 1 Activity through Silencing of Ser303/Ser307 Phosphorylation Supports a Metabolic Program Leading to Age-Related Obesity and Insulin Resistance

【24h】

Modulation of Heat Shock Factor 1 Activity through Silencing of Ser303/Ser307 Phosphorylation Supports a Metabolic Program Leading to Age-Related Obesity and Insulin Resistance

机译：Modulation of Heat Shock Factor 1 Activity through Silencing of Ser303/Ser307 Phosphorylation Supports a Metabolic Program Leading to Age-Related Obesity and Insulin Resistance

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相关主题

摘要

Activation of the adaptive response to cellular stress orchestrated by heat shock factor 1 (HSF1), which is an evolutionarily conserved transcriptional regulator of chaperone response and cellular bioenergetics in diverse model systems, is a central feature of organismal defense from environmental and cellular stress. HSF1 activity, induced by proteostatic, metabolic, and growth factor signals, is regulated by posttranscriptional modifications, yet the mechanisms that regulate HSF1 and particularly the functional significance of these modifications in modulating its biological activity in vivo remain unknown. HSF1 phosphorylation at both Ser303 (S303) and Ser307 (S307) has been shown to repress HSF1 transcriptional activity under normal physiological growth conditions. To determine the biological relevance of these HSF1 phosphorylation events, we generated a knock-in mouse model in which S303 and S307 were replaced with alanine (HSF1(303A/307A)). Our results confirmed that loss of phosphorylation in HSF1(303A/307A) cells and tissues increases protein stability but also markedly sensitizes HSF1 activation under normal and heat-or nutrient-induced stress conditions. Interestingly, the enhanced HSF1 activation in HSF1(303A/307A) mice activates a supportive metabolic program that aggravates the development of age-dependent obesity, fatty liver diseases, and insulin resistance. Thus, these findings highlight the importance of a posttranslational mechanism (through phosphorylation at S303 and S307 sites) of regulation of the HSF1-mediated transcriptional program that moderates the severity of nutrient-induced metabolic diseases.

著录项

来源
《Molecular and Cellular Biology》 |2018年第18期|共26页
作者
Jin Xiongjie; Qiao Aijun; Moskophidis DemetriusMivechi Nahid F.;
展开▼
作者单位

Augusta Univ, Med Coll Georgia, Mol Chaperone Biol, Augusta, GA 30904 USA;

展开▼
收录信息
原文格式 PDF
正文语种英语
中图分类分子生物学;
关键词
posttranslational HSF1 regulation; phosphorylation of HSF1 (Ser303A/Ser307A); knock-in mouse model; obesity; insulin resistance;

Modulation of Heat Shock Factor 1 Activity through Silencing of Ser303/Ser307 Phosphorylation Supports a Metabolic Program Leading to Age-Related Obesity and Insulin Resistance

摘要

著录项

相关主题

期刊订阅