Mitochondrial DNA mutations as a fundamental mechanism in physiological declines associated with aging

Pak, Jeong W.; Herbst, Allen; Bua, Entela; Gokey, Nolan G.; McKenzie, Debbie; Aiken, Judd M.

doi:10.1046/j.1474-9728.2003.00034.x

Cited by 78 publications

(40 citation statements)

References 47 publications

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“…Consequently, mitochondria that have evolved in response to selection in the female metabolic environment are likely to be prone to increased rates of ROS-related damage when functioning in males. This should lead to a greater rate of accumulation of deleterious mitochondrial mutations in male somatic tissues, and to a more rapid arrival at the mutational threshold level, beyond which OXPHOS activity becomes inadequate and mitochondrial disease is manifested [41]. The inability to transmit mitochondria might therefore be the Achilles' heel of the male sex.…”

Section: Opinion Trends In Genetics Vol21 No5 May 2005mentioning

confidence: 99%

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Maternal inheritance, sexual conflict and the maladapted male

Zeh

2005

Trends in Genetics

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Section: Opinion Trends In Genetics Vol21 No5 May 2005mentioning

confidence: 99%

“…Mutations in the mitochondrial genome are increasingly implicated in a wide range of pathologies, encompassing ageing, cancer and degenerative neurological diseases [40,41]. These diseases commonly involve tissues with increased metabolic requirements, such as those in heart, skeletal muscle and brain.…”

Section: Opinion Trends In Genetics Vol21 No5 May 2005mentioning

confidence: 99%

Maternal inheritance, sexual conflict and the maladapted male

Zeh

2005

Trends in Genetics

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“…Mitochondria seem to be closely involved in the aging process because these organelles are considered the main intracellular source of superoxide anion (O2 −), as well as the major target of free radical attack. ROS produced by the mitochondrial respiratory chain damage mitochondrial constituents, including proteins, lipids, and mitochondrial DNA (mtDNA) [31][32][33]. Progressive accumulation of oxidant-induced somatic mutations in mtDNA during an individual's lifetime leads to a deterioration in the bioenergetic function of mitochondria and contributes to the aging process.…”

Section: Aging and Oxidative Stressmentioning

confidence: 99%

Metabolic Syndrome, Aging and Involvement of Oxidative Stress

Bonomini¹,

Rodella²,

Rezzani³

2015

Aging and disease

469

314

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ABSTRACT:The prevalence of the metabolic syndrome, a cluster of cardiovascular risk factors associated with obesity and insulin resistance, is dramatically increasing in Western and developing countries. This disorder consists of a cluster of metabolic conditions, such as hypertriglyceridemia, hyper-low-density lipoproteins, hypo-high-density lipoproteins, insulin resistance, abnormal glucose tolerance and hypertension, that-in combination with genetic susceptibility and abdominal obesity-are risk factors for type 2 diabetes, vascular inflammation, atherosclerosis, and renal, liver and heart diseases. One of the defects in metabolic syndrome and its associated diseases is excess of reactive oxygen species. Reactive oxygen species generated by mitochondria, or from other sites within or outside the cell, cause damage to mitochondrial components and initiate degradative processes. Such toxic reactions contribute significantly to the aging process. In this article we review current understandings of oxidative stress in metabolic syndrome related disease and its possible contribution to accelerated senescence.

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“…More ROS-related damage should result in more deleterious mutations in somatic tissues. If we then assume a causal link between the number of mtDNA mutations and age-related diseases [57], males might be more susceptible to such ailments. Such a link between mitochondrial mutations and ageing has been substantiated in a mouse model [58,59].…”

Section: The Ageing Malementioning

confidence: 99%

The costs of being male: are there sex-specific effects of uniparental mitochondrial inheritance?

Beekman

Dowling

Aanen

2014

Phil. Trans. R. Soc. B

125

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Eukaryotic cells typically contain numerous mitochondria, each with multiple copies of their own genome, the mtDNA. Uniparental transmission of mitochondria, usually via the mother, prevents the mixing of mtDNA from different individuals. While on the one hand, this should resolve the potential for selection for fast-replicating mtDNA variants that reduce organismal fitness, maternal inheritance will, in theory, come with another set of problems that are specifically relevant to males. Maternal inheritance implies that the mitochondrial genome is never transmitted through males, and thus selection can target only the mtDNA sequence when carried by females. A consequence is that mtDNA mutations that confer male-biased phenotypic expression will be prone to evade selection, and accumulate. Here, we review the evidence from the ecological, evolutionary and medical literature for male specificity of mtDNA mutations affecting fertility, health and ageing. While such effects have been discovered experimentally in the laboratory, their relevance to natural populations—including the human population—remains unclear. We suggest that the existence of male expression-biased mtDNA mutations is likely to be a broad phenomenon, but that these mutations remain cryptic owing to the presence of counter-adapted nuclear compensatory modifier mutations, which offset their deleterious effects.

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Mitochondrial DNA mutations as a fundamental mechanism in physiological declines associated with aging

Cited by 78 publications

References 47 publications

Maternal inheritance, sexual conflict and the maladapted male

Maternal inheritance, sexual conflict and the maladapted male

Metabolic Syndrome, Aging and Involvement of Oxidative Stress

The costs of being male: are there sex-specific effects of uniparental mitochondrial inheritance?

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