Impairment of mitochondrial bioenergetics and permeability transition induction caused by major long-chain fatty acids accumulating in VLCAD deficiency in skeletal muscle as potential pathomechanisms of myopathy.

Impairment of mitochondrial bioenergetics and permeability transition induction caused by major long-chain fatty acids accumulating in VLCAD deficiency in skeletal muscle as potential pathomechanisms of myopathy. Toxicol In Vitro. 2019 Oct 16;:104665 Authors: Cecatto C, Amaral AU, Roginski AC, Castilho RF, Wajner M Abstract cis-5-Tetradecenoic (cis-5) and myristic (Myr) acids predominantly accumulate in patients affected by very long-chain acyl-CoA dehydrogenase (VLCAD) deficiency. They commonly manifest myopathy with muscular pain and rhabdomyolysis, whose underlying mechanisms are poorly known. Thus, in the present study we investigated the effects of cis-5 and Myr on mitochondrial bioenergetics and Ca2+ homeostasis in rat skeletal muscle. cis-5 and Myr decreased ADP-stimulated (state 3) and CCCP-stimulated (uncoupled) respiration, especially when mitochondria were supported by NADH-linked as compared to FADH2-linked substrates. In contrast, these fatty acids increased resting respiration (state 4). Similar effects were observed in skeletal muscle fibers therefore validating the data obtained with isolated mitochondria. Furthermore, cis-5 and Myr markedly decreased mitochondrial membrane potential and Ca2+ retention capacity that were avoided by cyclosporin A plus ADP and ruthenium red, indicating that cis-5 and Myr induce mitochondrial permeability transition (MPT). Finally, docosanoic acid did not disturb mitochondrial homeostasi...
Source: Toxicology in Vitro - Category: Toxicology Authors: Tags: Toxicol In Vitro Source Type: research