Abstract
According to the free radical theory of aging, reactive oxygen species (ROS) have been proposed to be a major cause of aging for a long time. Meanwhile, it became clear that ROS have diverse functions in a healthy organism. They act as second messengers, and as transient inhibitors of phosphatases and others. In fact, their detrimental role is highly dependent on the context of their production. NADPH oxidases (Nox) have been discovered as a controllable source of ROS. NoxO1 enables constitutive ROS formation by Nox1 by acting as a constitutively active cytosolic subunit of the complex. We previously found that both Nox1 and NoxO1 were highly expressed in the colon, and that NoxO1-/- deficiency reduces colon health. We hypothesized that a healthy colon potentially contributes to longevity and NoxO1 deficiency would reduce lifetime, at least in mouse. In contrast, here we provide evidence that the knockout of NoxO1 results in an elongated life expectancy of mice. No better endothelial function, nor an improved expression of genes related to longevity, such as Sirt1, were found, and therefore may not serve as an explanation for a longer life in NoxO1 deficiency. Rather minor systemic differences, such as lower body weight occur. As a potential reason for longer life, we suggest better DNA repair capacity in NoxO1 deficient mice. Although final fatal DNA damage appears similar between wildtype and NoxO1 knockout animals, we identified less intermediate DNA damage in colon cells of NoxO1-/- mice, while the number of cells with intact DNA is elevated in NoxO1-/- colons. We conclude that NoxO1 deficiency prolongs lifetime of mice, which correlates with less intermediate and potentially fixable DNA damage at least in colon cells.
Highlights
Aging is the leading cause of death worldwide
We compared the growth of wildtype and NoxO1-/mice.than
NoxO1-mutant mice did not show significant different from that of the wildtype mice (Figure 1B) and no significant difference in femur length was differences in young ageatbody weight
Summary
Aging is the leading cause of death worldwide. Research has invested a lot of effort in prevention of aging, or at least of its consequences such as Alzheimers disease, stroke, muscle weakening, and others. No cure from aging or age-related decline of health has been found. Besides the question of whether or not prevention of aging per se is a desirable goal, it is an eligible goal to age healthily and with fitness. Evidence-based studies indicate that longevity is based on two major factors; genetics and lifestyle choices. Molecular mechanisms of aging include proteostasis and quality control of proteins, DNA and RNA, as well as telomere length [1]. Genetic factors include SNPs (SNP—single nucleotide polymorphisms) and levels of gene expression, and thereby potentially epigenetic mechanisms [2]
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