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Mitochondrial dysfunction in human skeletal muscle biopsies of lipid storage disorder.

Research paper by B B Debashree, Manish M Kumar, T S TS Keshava Prasad, Archana A Natarajan, Rita R Christopher, A A Nalini, P S PS Bindu, N N Gayathri, M M MM Srinivas Bharath

Indexed on: 10 Feb '18Published on: 10 Feb '18Published in: Journal of Neurochemistry



Abstract

Mitochondria regulate the balance between lipid metabolism and storage in the skeletal muscle. Altered lipid transport, metabolism and storage influence the bioenergetics, redox status and insulin signalling contributing to cardiac and neurological diseases. Lipid storage disorders (LSDs) are neurological disorders which entail intramuscular lipid accumulation and impaired mitochondrial bioenergetics in the skeletal muscle causing progressive myopathy with muscle weakness. However, the mitochondrial changes including molecular events associated with impaired lipid storage have not been completely understood in the human skeletal muscle. We carried out morphological and biochemical analysis of mitochondrial function in muscle biopsies of human subjects with LSDs (n=7) compared to controls (n=10). Routine histology, enzyme histochemistry and ultrastructural analysis indicated altered muscle cell morphology and mitochondrial structure. Protein profiling of the muscle mitochondria from LSD samples (n=5) (vs. control, n=5) by high throughput mass spectrometric analysis revealed that impaired metabolic processes could contribute to mitochondrial dysfunction and ensuing myopathy in LSDs. We propose that impaired fatty acid and respiratory metabolism along with increased membrane permeability, elevated lipolysis and altered cristae entail mitochondrial dysfunction in LSDs. Some of these mechanisms were unique to LSD apart from others common to dystrophic and inflammatory muscle pathologies. Many differentially regulated mitochondrial proteins in LSD are linked with other human diseases indicating that mitochondrial protection via targeted drugs could be a treatment modality in LSD and related metabolic diseases. This article is protected by copyright. All rights reserved.