母体蛋白质限制抑制年轻成年大鼠骨骼肌中的胰岛素信号传导及胰岛素抵抗。

Maternal Protein Restriction Inhibits Insulin Signaling and Insulin Resistance in the Skeletal Muscle of Young Adult Rats.

作者信息

Awata Kentaro, Shoji Hiromichi, Arai Yoshiteru, Santosa Irena, Tokita Kazuhide, Murano Yayoi, Shimizu Toshiaki

出版信息

Juntendo Iji Zasshi. 2024 Mar 18;70(2):142-151. doi: 10.14789/jmj.JMJ23-0029-OA. eCollection 2024.

DOI:10.14789/jmj.JMJ23-0029-OA

PMID:39430205

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11487360/

Abstract

OBJECTIVES

Infants with fetal growth restriction (FGR) are at a risk of developing metabolic syndromes in adulthood. We hypothesized that skeletal muscle degeneration by nutrition-restricted FGR results in abnormal insulin signaling and epigenetic changes.

MATERIAL AND METHODS

To develop a protein-restricted FGR model, rats were fed a low-protein diet (7% protein) during the gestational period; rats fed a normal diet (20% protein) were used as controls. At 8 and 12 weeks of age, the pups were subjected to oral glucose tolerance test (OGTT) and insulin tolerance test (ITT) to evaluate insulin resistance. At 12 weeks, the mRNA and protein levels of insulin signaling pathway molecules in the skeletal muscles were examined. DNA methylation of promoters was detected. DNA extracted from skeletal muscles was used as a template for methylation-specific PCR analysis of .

RESULTS

The body weight of FGR rats from birth to 8 weeks was significantly lower than that of the controls; no significant difference was observed between the groups at 12 weeks. In the OGTT and ITT, the incremental area under the curve (iAUC) was significantly higher in FGR rats than in the controls at 12 weeks. The mRNA and protein levels of Akt2 and GLUT4 in the plantar muscles were significantly lower in FGR rats than in the controls. methylation was comparable between the groups.

CONCLUSIONS

Protein-restricted FGR rats showed insulin resistance and altered insulin signaling in skeletal muscles after 12 weeks. However, we could not demonstrate the involvement of DNA methylation in this model.

摘要

目的

胎儿生长受限（FGR）的婴儿成年后有发生代谢综合征的风险。我们假设营养受限的FGR导致的骨骼肌退化会引起胰岛素信号异常和表观遗传变化。

材料与方法

为建立蛋白质限制的FGR模型，在妊娠期给大鼠喂食低蛋白饮食（7%蛋白质）；以喂食正常饮食（20%蛋白质）的大鼠作为对照。在8周和12周龄时，对幼崽进行口服葡萄糖耐量试验（OGTT）和胰岛素耐量试验（ITT）以评估胰岛素抵抗。在12周时，检测骨骼肌中胰岛素信号通路分子的mRNA和蛋白质水平。检测启动子的DNA甲基化。从骨骼肌中提取的DNA用作甲基化特异性PCR分析的模板。

结果

从出生到8周，FGR大鼠的体重显著低于对照组；12周时两组之间未观察到显著差异。在OGTT和ITT中，12周时FGR大鼠的曲线下增量面积（iAUC）显著高于对照组。FGR大鼠足底肌肉中Akt2和GLUT4的mRNA和蛋白质水平显著低于对照组。两组之间的甲基化情况相当。

结论

蛋白质限制的FGR大鼠在12周后出现胰岛素抵抗和骨骼肌中胰岛素信号改变。然而，在该模型中我们未能证明DNA甲基化的参与。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c80/11487360/c89a7c464cea/2188-2126-70-2-0142-g001.jpg

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母体蛋白质限制抑制年轻成年大鼠骨骼肌中的胰岛素信号传导及胰岛素抵抗。

Maternal Protein Restriction Inhibits Insulin Signaling and Insulin Resistance in the Skeletal Muscle of Young Adult Rats.

作者信息

出版信息

OBJECTIVES

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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