The Role of Cristae Regulatory Proteins in Mitochondrial Dysfunction in an Experimentally Induced Hyperthyroidism Model

IF 1.1 Q4 CELL BIOLOGY

Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology Pub Date : 2025-04-24 DOI:10.1134/S1990747824700570

N. I. Venediktova, I. N. Solomadin, V. P. Medvedeva

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Abstract

In this work we investigated the rearrangements in the cristae structure and possible connection of these changes with the level of MICOS proteins in rat liver mitochondria in experimentally induced hyperthyroidism. A model of hyperthyroidism (HT) was induced by chronic administration of thyroxine. A change in the structure of liver mitochondria of hyperthyroid rats (HR) was found to consist of swollen organelles with a slightly altered number of cristae. A part of mitochondria (13%) in HR had vacuolized matrix with simultaneously reduced number of cristae. An increase in the protein levels of MIC 60, MIC 25, and MIC 19 was shown in the HT condition, while the quantity of MIC 10 was unchanged. In turn, the levels of SAMM 50 and OPA1 were reduced in HR. The data obtained indicate that excess thyroid hormones cause partial changes in the structure of liver mitochondria and reduce the content of SAMM50 and OPA1 proteins, which can be considered as possible targets for investigating therapeutic strategies for metabolic disorders associated with mitochondrial dysfunction.

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甲亢模型中嵴调节蛋白在线粒体功能障碍中的作用

在本研究中，我们研究了实验性甲状腺机能亢进大鼠肝线粒体嵴结构的重排及其与MICOS蛋白水平的可能联系。建立慢性甲状腺素诱导的甲状腺机能亢进（HT）模型。甲状腺功能亢进大鼠（HR）肝脏线粒体结构发生变化，细胞器肿胀，嵴数量略有改变。HR部分线粒体（13%）基质空泡化，同时嵴数量减少。在高温条件下，mic60、mic25和mic19的蛋白水平升高，而mic10的数量不变。反过来，samm50和OPA1水平在HR中降低。所获得的数据表明，过量的甲状腺激素会导致肝脏线粒体结构的部分改变，并降低SAMM50和OPA1蛋白的含量，这可以被认为是研究线粒体功能障碍相关代谢紊乱治疗策略的可能靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology CELL BIOLOGY-

CiteScore

1.40

自引率

0.00%

发文量

期刊介绍： Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology is an international peer reviewed journal that publishes original articles on physical, chemical, and molecular mechanisms that underlie basic properties of biological membranes and mediate membrane-related cellular functions. The primary topics of the journal are membrane structure, mechanisms of membrane transport, bioenergetics and photobiology, intracellular signaling as well as membrane aspects of cell biology, immunology, and medicine. The journal is multidisciplinary and gives preference to those articles that employ a variety of experimental approaches, basically in biophysics but also in biochemistry, cytology, and molecular biology. The journal publishes articles that strive for unveiling membrane and cellular functions through innovative theoretical models and computer simulations.