Imbalance in MICOS Proteins in Rat Liver Mitochondria in an Induced Hyperthyroidism Model.
Natalya Venediktova, Ilya Solomadin, Anna Nikiforova, Tatiana Bessonova
Abstract
Open AccessThis study investigated rearrangements in the cristae structure and the possible relationship between these changes and the MICOS levels in the liver mitochondria of rats with experimentally induced hyperthyroidism. In hyperthyroid rats (HRs), the number, area, and perimeter of mitochondria were increased, and organelles of a worm-shaped, branched, highly elongated, or spherical shape appeared. A structural change in the mitochondria of HR liver was detected, consisting of a decrease in the number of cristae relative to the cross-section of the organelle. In some mitochondria, multilamellar bodies were detected. Hyperthyroidism caused an increase in the expression of genes and the level of proteins of the MIC60 subcomplex, with an unchanged level of the MIC10 subcomplex. Moreover, the levels of Sam50 and OPA1 in HRs were reduced. A functional assessment of HR mitochondria revealed changes in oxygen consumption, a decrease in membrane potential, and disruption of Ca2+ homeostasis. These data indicate that excess thyroid hormones cause partial changes in liver mitochondrial structure and an imbalance in the levels of Mic60 and Mic10 subcomplex proteins. The decreased levels of Sam50 and OPA1 proteins suggest their potential as targets for correcting mitochondrial dysfunction in metabolic disorders.