The pathogenesis of very-long-chain acyl-CoA dehydrogenase(VLCAD)deficiency is highly heterogeneous and still unclear.Additional novel variants have been recently detected in the population.The molecular and cellular ...The pathogenesis of very-long-chain acyl-CoA dehydrogenase(VLCAD)deficiency is highly heterogeneous and still unclear.Additional novel variants have been recently detected in the population.The molecular and cellular effects of these previously unreported variants are still poorly understood and require further characterization.To address this problem,we have evaluated the various functions and biochemical consequences of six novel missense variants that lead to mild VLCAD deficiency.Marked deficiencies in fatty acid oxidation(FAO)and other mitochondrial defects were observed in cells carrying one of these six variants(c.541 C>T,c.863 T>G,c.895 A>G,c.1238 T>C,c.1276 G>A,and c.1505 T>A),including reductions in mitochondrial respiratory-chain function and adenosine teriphosphate(ATP)production,and increased levels of mitochondrial reactive oxygen species(ROS).Intriguingly,higher apoptosis levels were found in cells carrying the mutant VLCAD under glucose-limited stress.Moreover,the stability of the mutant homodimer was disturbed,and major conformational changes in each mutant VLCAD structure were predicted by molecular dynamics(MD)simulation.The data presented here may provide valuable information for improving management of diagnosis and treatment of VLCAD deficiency and for a better understanding of the general molecular bases of disease variability.展开更多
Auditory function in vertebrates depends on the transduction of sound vibrations into electrical signals by inner ear hair cells.In general,hearing loss resulting from hair cell damage is irreversible because the huma...Auditory function in vertebrates depends on the transduction of sound vibrations into electrical signals by inner ear hair cells.In general,hearing loss resulting from hair cell damage is irreversible because the human ear has been considered to be incapable of regenerating or repairing these sensory elements following severe injury.Therefore,regeneration and protection of inner ear hair cells have become an exciting,rapidly evolving field of research during the last decade.However,mammalian auditory hair cells are few in number,experimentally inaccessible,and barely proliferate postnatally in vitro.Various in vitro primary culture systems of inner ear hair cells have been established by different groups,although many challenges remain unresolved.Here,we briefly explain the structure of the inner ear,summarize the published methods of in vitro hair cell cultures,and propose a feasible protocol for culturing these cells,which gave satisfactory results in our study.A better understanding of in vitro hair cell cultures will substantially facilitate research involving auditory functions,drug development,and the isolation of critical molecules involved in hair cell biology.展开更多
基金the National Natural Science Foundation of China(No.81741090)the Zhejiang Provincial Program for the Cultivation of High-level Innovative Health Talentsthe National KePy R&D Program of China(Nos.2017YFC1001703 and 2018YFC1002700)。
文摘The pathogenesis of very-long-chain acyl-CoA dehydrogenase(VLCAD)deficiency is highly heterogeneous and still unclear.Additional novel variants have been recently detected in the population.The molecular and cellular effects of these previously unreported variants are still poorly understood and require further characterization.To address this problem,we have evaluated the various functions and biochemical consequences of six novel missense variants that lead to mild VLCAD deficiency.Marked deficiencies in fatty acid oxidation(FAO)and other mitochondrial defects were observed in cells carrying one of these six variants(c.541 C>T,c.863 T>G,c.895 A>G,c.1238 T>C,c.1276 G>A,and c.1505 T>A),including reductions in mitochondrial respiratory-chain function and adenosine teriphosphate(ATP)production,and increased levels of mitochondrial reactive oxygen species(ROS).Intriguingly,higher apoptosis levels were found in cells carrying the mutant VLCAD under glucose-limited stress.Moreover,the stability of the mutant homodimer was disturbed,and major conformational changes in each mutant VLCAD structure were predicted by molecular dynamics(MD)simulation.The data presented here may provide valuable information for improving management of diagnosis and treatment of VLCAD deficiency and for a better understanding of the general molecular bases of disease variability.
基金Project supported by the National Basic Research Priorities Program of China(Nos.2014CB541702 and 2014CB541704)the National Natural Science Foundation of China(No.31671305)
文摘Auditory function in vertebrates depends on the transduction of sound vibrations into electrical signals by inner ear hair cells.In general,hearing loss resulting from hair cell damage is irreversible because the human ear has been considered to be incapable of regenerating or repairing these sensory elements following severe injury.Therefore,regeneration and protection of inner ear hair cells have become an exciting,rapidly evolving field of research during the last decade.However,mammalian auditory hair cells are few in number,experimentally inaccessible,and barely proliferate postnatally in vitro.Various in vitro primary culture systems of inner ear hair cells have been established by different groups,although many challenges remain unresolved.Here,we briefly explain the structure of the inner ear,summarize the published methods of in vitro hair cell cultures,and propose a feasible protocol for culturing these cells,which gave satisfactory results in our study.A better understanding of in vitro hair cell cultures will substantially facilitate research involving auditory functions,drug development,and the isolation of critical molecules involved in hair cell biology.
