TY - JOUR
T1 - Maternally inherited differences within mitochondrial Complex I control murine healthspan.
AU - Hirose, Misa
AU - Schilf, Paul
AU - Zarse, Kim
AU - Busch, Hauke
AU - Fuellen, Georg
AU - Joehren, Olaf
AU - Koehling, Ruediger
AU - Koenig, Inke R
AU - Richer, Barbara
AU - Rupp, Jan
AU - Schwaninger, Markus
AU - Seeger, Karsten
AU - Sina, Christian
AU - Ristow, Michael
AU - Ibrahim, Saleh M
PY - 2018
Y1 - 2018
N2 - Mitochondrial complex I, the largest enzyme complex of the mitochondrial oxidative phosphorylation machinery, has been proposed to contribute to a variety of age-related pathological alterations as well as longevity. The enzyme complex-consisting proteins are encoded by both nuclear (nDNA) and mitochondrial DNA (mtDNA). While some association studies of mtDNA-encoded complex I genes and lifespan in humans have been reported, experimental evidence and the functional consequence of such variants is limited to studies using invertebrate models. Here, we present experimental evidence that a homoplasmic mutation in the mitochondrially encoded complex I gene mt-Nd2 modulates lifespan by altering cellular tryptophan levels and, consequently, ageing-related pathways in mice. A conplastic mouse strain carrying a mutation at m.4738C>A in mt-Nd2 lived significantly shorter than the controls did. The same mutation led to a higher susceptibility to glucose intolerance induced by high-fat diet feeding. These phenotypes were not observed in mice carrying a mutation in another mtDNA-encoded complex I gene, mt-Nd5, suggesting the functional relevance of particular mutations in complex I to ageing and age-related diseases.
AB - Mitochondrial complex I, the largest enzyme complex of the mitochondrial oxidative phosphorylation machinery, has been proposed to contribute to a variety of age-related pathological alterations as well as longevity. The enzyme complex-consisting proteins are encoded by both nuclear (nDNA) and mitochondrial DNA (mtDNA). While some association studies of mtDNA-encoded complex I genes and lifespan in humans have been reported, experimental evidence and the functional consequence of such variants is limited to studies using invertebrate models. Here, we present experimental evidence that a homoplasmic mutation in the mitochondrially encoded complex I gene mt-Nd2 modulates lifespan by altering cellular tryptophan levels and, consequently, ageing-related pathways in mice. A conplastic mouse strain carrying a mutation at m.4738C>A in mt-Nd2 lived significantly shorter than the controls did. The same mutation led to a higher susceptibility to glucose intolerance induced by high-fat diet feeding. These phenotypes were not observed in mice carrying a mutation in another mtDNA-encoded complex I gene, mt-Nd5, suggesting the functional relevance of particular mutations in complex I to ageing and age-related diseases.
UR - https://www.biorxiv.org/content/early/2018/11/16/472092
UR - http://www.mendeley.com/research/maternally-inherited-differences-within-mitochondrial-complex-i-control-murine-healthspan
U2 - 10.1101/472092
DO - 10.1101/472092
M3 - Zeitschriftenaufsätze
SP - 472092
JO - biorxiv
JF - biorxiv
ER -