Abstract
The concept that mutations cause aging phenotypes could not be directly tested previously due to inability to identify age-related mutations in somatic cells and determine their impact on organismal aging. Here, we subjected Saccharomyces cerevisiae to multiple rounds of replicative aging and assessed de novo mutations in daughters of mothers of different age. Mutations did increase with age, but their low numbers, < 1 per lifespan, excluded their causal role in aging. Structural genome changes also had no role. A mutant lacking thiol peroxidases had the mutation rate well above that of wild-type cells, but this did not correspond to the aging pattern, as old wild-type cells with few or no mutations were dying, whereas young mutant cells with many more mutations continued dividing. In addition, wild-type cells lost mitochondrial DNA during aging, whereas shorter-lived mutant cells preserved it, excluding a causal role of mitochondrial mutations in aging. Thus, DNA mutations do not cause aging in yeast. These findings may apply to other damage types, suggesting a causal role of cumulative damage, as opposed to individual damage types, in organismal aging.
Highlights
The nature of aging remains one of the grand mysteries of biology (Kirkwood & Austad, 2000)
In the 1950s, Failla and Szilard proposed that random somatic mutations cause cell and tissue dysfunction, leading to aging (Failla, 1958; Szilard, 1959)
One possibility is that decreased fidelity of enzymes responsible for preventing or repairing DNA damage leads to mutation accumulation and aging (Andressoo et al, 2006; Brosh & Bohr, 2007; Gorbunova et al, 2007), but this could be due to critical mutations in these genes accumulated through the lifespan
Summary
The nature of aging remains one of the grand mysteries of biology (Kirkwood & Austad, 2000). One possibility is that decreased fidelity (e.g., due to protein damage) of enzymes responsible for preventing or repairing DNA damage leads to mutation accumulation and aging (Andressoo et al, 2006; Brosh & Bohr, 2007; Gorbunova et al, 2007), but this could be due to critical mutations in these genes accumulated through the lifespan.
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