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2Belozersky Institute of Physico-Chemical Biology, Lomonosov Moscow State University, 119992 Moscow, Russia
* To whom correspondence should be addressed.
Received: August 28, 2024; Revised: October 4, 2024; Accepted: October 9, 2024
Intermediate filaments (IFs) represented by a diverse range of proteins, are one of the three main cytoskeleton components in different types of animal cells. IFs provide mechanical strength to cells and help position the nucleus and organelles in the cell. Desmin is an IF protein typical of muscle cells, while vimentin, which has a similar structure, is expressed in many mesenchymal cells. Both proteins are synthesized during myogenesis and regeneration of damaged muscle tissue and form a mixed IF network. Both desmin and vimentin regulate mitochondrial activity, including mitochondrial localization and maintenance of mitochondrial membrane potential, in the corresponding cells, but the role of mixed IFs in the control of mitochondrial functions remains unclear. To investigate how a simultaneous presence of these proteins affects mitochondrial membrane potential, we used BHK21 cells expressing both vimentin and desmin IFs. Expression of vimentin or desmin individually or both proteins simultaneously was suppressed using gene knockout and/or RNA interference. It was found that disruption of biosynthesis of either vimentin or desmin did not affect the mitochondrial membrane potential, which remained unchanged compared to cells expressing both proteins. Simultaneous abolishment of both proteins resulted in a 20% reduction in the mitochondrial membrane potential, indicating that both vimentin and desmin play an equally important role in its maintenance.
KEY WORDS: mitochondria, vimentin, desmin, mitochondrial membrane potentialDOI: 10.1134/S0006297924110154
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