绘制 MKP-3/FOXO1 相互作用图谱并评估其对糖异生的影响。

Mapping MKP-3/FOXO1 interaction and evaluating the effect on gluconeogenesis.

机构信息

Hallett Center for Diabetes and Endocrinology, Rhode Island Hospital, Alpert Medical School of Brown University, Providence, Rhode Island, United States of America.

出版信息

PLoS One. 2012;7(7):e41168. doi: 10.1371/journal.pone.0041168. Epub 2012 Jul 25.

DOI:10.1371/journal.pone.0041168

PMID:22848439

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3405053/

Abstract

BACKGROUND

MAP kinase phosphatase 3 (MKP-3) is known to attenuate the ERK signaling pathway. It has been recently demonstrated that MKP-3 is also a player in promoting hepatic glucose output in obese state by interacting and activating FOXO1. Reduction of hepatic MKP-3 expression is sufficient to reduce blood glucose levels in both diet-induced and genetically obese mice.

METHODOLOGY/PRINCIPAL FINDINGS: In current study, the mechanism of MKP-3/FOXO1 interaction and the effects on transcription of gluconeogenic gene and glucose output was investigated in Fao hepatoma cells by using mutated MKP-3 and FOXO1 adenoviral constructs. The results indicate that MKP-3 phosphatase activity is not required for MKP-3/FOXO1 interaction but is essential for FOXO1 nuclear translocation and MKP-3 promoted gluconeogenesis. Compared to GFP control (1±0.38), MKP-3 increased G6Pase gene expression by 242% (3.42±0.62) while inactive MKP-3 does not change G6Pase expression (0.98±0.17). The residues 200-260 of MKP-3 and the residues 360-456 of FOXO1 are essential for mediating MKP-3/FOXO1 interaction. Interestingly, ERK phosphorylation deficient but not Akt phosphorylation deficient FOXO1 mutant lost interaction with MKP-3. Furthermore, in vivo experiments showed that Akt phosphorylation resistant FOXO1 3A mutant is sufficient to rescue the hypoglycemia caused by MKP-3 knock down in the liver of lean mice (from 141±6.78 to 209±14.64 mg/dL).

CONCLUSIONS/SIGNIFICANCE: 1) Critical residues mediating MKP-3/FOXO1 interaction have been identified; 2) ERK phosphorylation deficient FOXO1 mutant is as potent as Akt phosphorylation deficient FOXO1 mutant in activating transcription of gluconeogenic genes; 3) Constitutively active FOXO1 can rescue the hypoglycemic effect caused by reduced hepatic MKP-3 expression in vivo.

摘要

背景

已知丝裂原活化蛋白激酶磷酸酶 3（MKP-3）可减弱 ERK 信号通路。最近的研究表明，MKP-3 还通过与 FOXO1 相互作用并激活 FOXO1 来促进肥胖状态下的肝葡萄糖输出。减少肝 MKP-3 的表达足以降低饮食诱导和遗传肥胖小鼠的血糖水平。

方法/主要发现：在目前的研究中，通过使用突变的 MKP-3 和 FOXO1 腺病毒构建体，在 Fao 肝癌细胞中研究了 MKP-3/FOXO1 相互作用的机制及其对糖异生基因转录和葡萄糖输出的影响。结果表明，MKP-3 的磷酸酶活性对于 MKP-3/FOXO1 相互作用不是必需的，但对于 FOXO1 的核易位和 MKP-3 促进的糖异生是必需的。与 GFP 对照（1±0.38）相比，MKP-3 使 G6Pase 基因表达增加了 242%（3.42±0.62），而无活性的 MKP-3 不会改变 G6Pase 的表达（0.98±0.17）。MKP-3 的 200-260 残基和 FOXO1 的 360-456 残基对于介导 MKP-3/FOXO1 相互作用是必需的。有趣的是，ERK 磷酸化缺陷但 Akt 磷酸化缺陷的 FOXO1 突变体失去了与 MKP-3 的相互作用。此外，体内实验表明，Akt 磷酸化抗性 FOXO1 3A 突变体足以挽救 MKP-3 敲低引起的瘦鼠肝脏低血糖（从 141±6.78 增加到 209±14.64mg/dL）。

结论/意义：1）已鉴定出介导 MKP-3/FOXO1 相互作用的关键残基；2）ERK 磷酸化缺陷的 FOXO1 突变体与 Akt 磷酸化缺陷的 FOXO1 突变体一样有效地激活糖异生基因的转录；3）组成性激活的 FOXO1 可挽救体内肝 MKP-3 表达降低引起的低血糖作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d6c3/3405053/4e04716c1288/pone.0041168.g001.jpg

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