Abstract
Naked mole‐rats (NMRs) are mouse‐sized mammals that exhibit an exceptionally long lifespan (>30 vs. <4 years for mice), and resist aging‐related pathologies such as cardiovascular and pulmonary diseases, cancer, and neurodegeneration. However, the mechanisms underlying this exceptional longevity and disease resistance remain poorly understood. The oxidative stress theory of aging posits that (a) senescence results from the accumulation of oxidative damage inflicted by reactive oxygen species (ROS) of mitochondrial origin, and (b) mitochondria of long‐lived species produce less ROS than do mitochondria of short‐lived species. However, comparative studies over the past 28 years have produced equivocal results supporting this latter prediction. We hypothesized that, rather than differences in ROS generation, the capacity of mitochondria to consume ROS might distinguish long‐lived species from short‐lived species. To test this hypothesis, we compared mitochondrial production and consumption of hydrogen peroxide (H2O2; as a proxy of overall ROS metabolism) between NMR and mouse skeletal muscle and heart. We found that the two species had comparable rates of mitochondrial H2O2 generation in both tissues; however, the capacity of mitochondria to consume ROS was markedly greater in NMRs. Specifically, maximal observed consumption rates were approximately two and fivefold greater in NMRs than in mice, for skeletal muscle and heart, respectively. Our results indicate that differences in matrix ROS detoxification capacity between species may contribute to their divergence in lifespan.
Highlights
Naked mole‐rats (NMRs; Heterocephalus glaber, Rodentia) are mouse‐ sized eusocial mammals native to Eastern Africa that live in large subterranean colonies
We found no significant differences between species except for a higher production of H2O2 in NMR mitochondria during malate + glutamate oxidation (Figure 3a)
Many authors do not distinguish between the classical oxidative stress theory of aging, first suggested by Harman in 1956, and the more recent mitochondrial oxidative stress hypothesis of aging
Summary
Naked mole‐rats (NMRs; Heterocephalus glaber, Rodentia) are mouse‐ sized eusocial mammals native to Eastern Africa that live in large subterranean colonies. Individuals of this species can live for >30 years in laboratory conditions (Edrey, Hanes, Pinto, Mele, & Buffenstein, 2011), and exhibit a remarkably long health span; typical signs of senescence seen in old rodents (e.g., loss of fecundity, lordokyphosis, decreased thermoregulation capacities, elevated incidence of aging‐related disease such as cancer, neurodegeneration, cardiac disorders, muscle atrophy, and increasing mortality rate) are mostly absent in NMRs (Buffenstein, 2008; Edrey et al, 2011; Ruby, Smith, & Buffenstein, 2018).
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