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    A combination of major histocompatibility complex (MHC) I overexpression and type I interferon induce mitochondrial dysfunction in human skeletal myoblasts

    Thoma, Anastasia, Alomosh, Razan, Bond, Holly L, Akter‐Miah, Tania, Al‐Shanti, Nasser ORCID logoORCID: https://orcid.org/0000-0002-4215-2649, Degens, Hans ORCID logoORCID: https://orcid.org/0000-0001-7399-4841, Pekovic‐Vaughan, Vanja and Lightfoot, Adam P ORCID logoORCID: https://orcid.org/0000-0003-1501-7879 (2024) A combination of major histocompatibility complex (MHC) I overexpression and type I interferon induce mitochondrial dysfunction in human skeletal myoblasts. Journal of Cellular Physiology. e31458. ISSN 0021-9541

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    Abstract

    The overexpression of major histocompatibility complex (MHC) I on the surface of muscle fibers is a characteristic hallmark of the idiopathic inflammatory myopathies (IIMs), collectively termed myositis. Alongside MHC‐I overexpression, subtypes of myositis, display a distinct type I interferon (IFN) signature. This study examined the combinational effects of elevated MHC‐I and type I IFNs (IFNα/β) on mitochondrial function, as mitochondrial dysfunction is often seen in IIMs. Human skeletal muscle myoblasts were transfected with an MHC‐I isoform using the mammalian HLA‐A2/Kb vector. Mitochondrial respiration, mitochondrial membrane potential, and reactive oxygen/nitrogen species generation were assessed with or without IFNα and IFNβ. We show that MHC‐I overexpression in human skeletal muscle myoblasts led to decreased basal glycolysis and mitochondrial respiration, cellular spare respiratory capacity, adenosine triphosphate‐linked respiration, and an increased proton leak, which were all exaggerated by type I IFNs. Mitochondrial membrane depolarization was induced by MHC‐I overexpression both in absence and presence of type I IFNs. Human myoblasts overexpressing MHC‐I showed elevated nitric oxide generation that was abolished when combined with IFN. MHC‐I on its own did not result in an increased reactive oxygen species (ROS) production, but IFN on their own, or combined with MHC‐I overexpression did induce elevated ROS generation. Surprisingly, we observed no gross changes in mitochondrial reticular structure or markers of mitochondrial dynamics. We present new evidence that MHC‐I overexpression and type I IFNs aggravate the effects each has on mitochondrial function in human skeletal muscle cells, providing novel insights into their mechanisms of action and suggesting important implications in the further study of myositis pathogenesis.

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