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Succinate dehydrogenase upregulation destabilize complex I and limits the lifespan of gas-1 mutant.


ABSTRACT: Many Caenorhabditis elegans mutants with dysfunctional mitochondrial electron transport chain are surprisingly long lived. Both short-lived (gas-1(fc21)) and long-lived (nuo-6(qm200)) mutants of mitochondrial complex I have been identified. However, it is not clear what are the pathways determining the difference in longevity. We show that even in a short-lived gas-1(fc21) mutant, many longevity assurance pathways, shown to be important for lifespan prolongation in long-lived mutants, are active. Beside similar dependence on alternative metabolic pathways, short-lived gas-1(fc21) mutants and long-lived nuo-6(qm200) mutants also activate hypoxia-inducible factor -1? (HIF-1?) stress pathway and mitochondrial unfolded protein response (UPR(mt)). The major difference that we detected between mutants of different longevity, is in the massive loss of complex I accompanied by upregulation of complex II levels, only in short-lived, gas-1(fc21) mutant. We show that high levels of complex II negatively regulate longevity in gas-1(fc21) mutant by decreasing the stability of complex I. Furthermore, our results demonstrate that increase in complex I stability, improves mitochondrial function and decreases mitochondrial stress, putting it inside a "window" of mitochondrial dysfunction that allows lifespan prolongation.

SUBMITTER: Pujol C 

PROVIDER: S-EPMC3610896 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Succinate dehydrogenase upregulation destabilize complex I and limits the lifespan of gas-1 mutant.

Pujol Claire C   Bratic-Hench Ivana I   Sumakovic Marija M   Hench Jürgen J   Mourier Arnaud A   Baumann Linda L   Pavlenko Victor V   Trifunovic Aleksandra A  

PloS one 20130328 3


Many Caenorhabditis elegans mutants with dysfunctional mitochondrial electron transport chain are surprisingly long lived. Both short-lived (gas-1(fc21)) and long-lived (nuo-6(qm200)) mutants of mitochondrial complex I have been identified. However, it is not clear what are the pathways determining the difference in longevity. We show that even in a short-lived gas-1(fc21) mutant, many longevity assurance pathways, shown to be important for lifespan prolongation in long-lived mutants, are active  ...[more]

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