Litcius/Paper detail

Is the NDUFV2 subunit of the hydrophilic complex I domain a key determinant of animal longevity?

Reinald Pamplona, Mariona Jové, Natàlia Mota‐Martorell, Gustavo Barja

2021FEBS Journal24 citationsDOIOpen Access PDF

Abstract

Complex I, a component of the electron transport chain, plays a central functional role in cell bioenergetics and the biology of free radicals. The structural and functional N module of complex I is one of the main sites of the generation of free radicals. The NDUFV2 subunit/N1a cluster is a component of this module. Furthermore, the rate of free radical production is linked to animal longevity. In this review, we explore the hypothesis that NDUFV2 is the only conserved core subunit designed with a regulatory function to ensure correct electron transfer and free radical production, that low gene expression and protein abundance of the NDUFV2 subunit is an evolutionary adaptation needed to achieve a longevity phenotype, and that these features are determinants of the lower free radical generation at the mitochondrial level and a slower rate of aging of long-lived animals.

Topics & Concepts

LongevityProtein subunitBioenergeticsRadicalBiologyAdaptation (eye)MitochondrionCell biologyElectron transport chainPhenotypeCluster (spacecraft)Free-radical theory of agingGeneticsEvolutionary biologyComputational biologyGeneBiochemistryComputer scienceNeuroscienceProgramming languageMitochondrial Function and PathologyGenetics, Aging, and Longevity in Model OrganismsRedox biology and oxidative stress