Aging increases mitochondrial DNA damage and oxidative stress in liver of rhesus monkeys

Castro, María del R.; Suarez, Edu; Kraiselburd, Edmundo; Isidro, Angel A.; Paz, José Lucio Hernández de la; Ferder, León; Ayala‐Torres, Sylvette

doi:10.1016/j.exger.2011.10.002

Cited by 75 publications

(49 citation statements)

References 58 publications

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“…The relatively older cohort who adhered to the study would have had increased depletion of GPx activity, while supporting the increased oxidative stress expected with increasing age [68]. Depletion of GPx activity with increasing age has been previously shown in aging humans as well as in rhesus monkeys [69,70]. However, age has shown a significant positive association with RBC GPx activity in the current cohort at [71].…”

Section: Discussionmentioning

confidence: 65%

Understanding Heterogeneity in Supplementation Effects of Selenium in Men: A Study of Stratification Variables and Human Genetics in a Prospective Sample from New Zealand

Ferguson¹,

Karunasinghe²,

Zhu³

et al. 2012

CPPM

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There is marked controversy on the beneficial levels of selenium (Se) to be used as a dietary supplement. The form of supplemented Se and the baseline plasma or serum Se status among supplemented populations are generally considered as crucial factors in this controversy. However, responses to supplemented Se can further vary with other factors, including health status, lifestyle, demographics and genetics. In the present study, the putative supplementation benefits of Se as 200 µg/day selenised yeast for six months were evaluated among a stratified male population from Auckland, New Zealand. Our study considered changes in surrogate biomarkers for cancer including antioxidant selenoenzymes glutathione peroxidase (GPx) and thioredoxin reductase activity (TR) levels, basal and peroxide-induced DNA damage levels. A total of 569 subjects self-reporting a European ancestry signed in for the study and provided answers to a basic demographic, health and lifestyle questionnaire. The effects of Se supplementation on biomarkers showed significant variability based on age, BMI, health status and seleno-genotypes of SELS rs4965373, GPx1 rs1050450, and SEPP1 rs3877899. The data indicate that the benefits of supplementary Se vary significantly across a population, based on demographics, lifestyle, health conditions and seleno-genotypes. As a contrast to "one-size-fits-all" nutritional interventions, these observations collectively inform rational targeting and personalisation of future Se-based dietary supplementation in regards to cancer chemoprevention strategies. This work also represents a way forward in critically understanding Se requirements in populations.

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Section: Discussionmentioning

confidence: 65%

Understanding Heterogeneity in Supplementation Effects of Selenium in Men: A Study of Stratification Variables and Human Genetics in a Prospective Sample from New Zealand

Ferguson¹,

Karunasinghe²,

Zhu³

et al. 2012

CPPM

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“…The hydroxyl radical being highly reactive can damage different macromolecules inside mitochondria like proteins, DNA and lipids [44], and that unrepaired damage to mitochondrial DNA leads to defective complex I or III which can result in increased electron reduction of O 2 to form superoxide [45][46][47]. Increased concentration of superoxide radicals that occurs due to mitochondrial DNA lesions would contribute to metabolic oxidative stress, cellular injury and genomic instability [43].…”

Section: Mitochondrial Dysfunction and Its Consequencesmentioning

confidence: 99%

Oxidative stress, mitochondrial dysfunction and neurodegenerative diseases; a mechanistic insight

Bhat¹,

Dar²,

Anees³

et al. 2015

Biomedicine & Pharmacotherapy

743

484

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“…We have previously shown that livers from healthy middle-aged and old rhesus monkeys (Macaca mulatta) show a significant reduction in mtDNA copy number, increased number of mtDNA oxidative lesions, increased lipid peroxidation and protein carbonylations, reduced antioxidant enzyme activity, and increased age-associated liver pathology (65). Recently, we found that 2 yr losartan treatment (30 mg/day) lowered serum glucose and oxidative stress markers in healthy middle-aged Rhesus monkeys without modifying blood pressure (unpublished observations).…”

Section: Ras-bl and Agingmentioning

confidence: 99%

Angiotensin II blockade: how its molecular targets may signal to mitochondria and slow aging. Coincidences with calorie restriction and mTOR inhibition

Cavanagh

Inserra

Ferder

2015

American Journal of Physiology-Heart and Circulatory Physiology

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de Cavanagh EM, Inserra F, Ferder L. Angiotensin II blockade: how its molecular targets may signal to mitochondria and slow aging. Coincidences with calorie restriction and mTOR inhibition. Am J Physiol Heart Circ Physiol 309: H15-H44, 2015. First published May 1, 2015; doi:10.1152/ajpheart.00459.2014, renin angiotensin system blockade (RAS-bl), and rapamycin-mediated mechanistic target of rapamycin (mTOR) inhibition increase survival and retard aging across species. Previously, we have summarized CR and RAS-bl's converging effects, and the mitochondrial function changes associated with their physiological benefits. mTOR inhibition and enhanced sirtuin and KLOTHO signaling contribute to the benefits of CR in aging. mTORC1/mTORC2 complexes contribute to cell growth and metabolic regulation. Prolonged mTORC1 activation may lead to age-related disease progression; thus, rapamycin-mediated mTOR inhibition and CR may extend lifespan and retard aging through mTORC1 interference. Sirtuins by deacetylating histone and transcription-related proteins modulate signaling and survival pathways and mitochondrial functioning. CR regulates several mammalian sirtuins favoring their role in aging regulation. KLOTHO/fibroblast growth factor 23 (FGF23) contribute to control Ca 2ϩ , phosphate, and vitamin D metabolism, and their dysregulation may participate in age-related disease. Here we review how mTOR inhibition extends lifespan, how KLOTHO functions as an aging suppressor, how sirtuins mediate longevity, how vitamin D loss may contribute to age-related disease, and how they relate to mitochondrial function. Also, we discuss how RAS-bl downregulates mTOR and upregulates KLOTHO, sirtuin, and vitamin D receptor expression, suggesting that at least some of RAS-bl benefits in aging are mediated through the modulation of mTOR, KLOTHO, and sirtuin expression and vitamin D signaling, paralleling CR actions in age retardation. Concluding, the available evidence endorses the idea that RAS-bl is among the interventions that may turn out to provide relief to the spreading issue of age-associated chronic disease. mechanistic target of rapamycin; vitamin D; caloric restriction; renin-angiotensin system EFFORTS AIMED AT DECIPHERING the mechanisms that underlie the aging process have unveiled three interventions that can increase survival and retard age-related diseases from lower organisms to mammals, i.e., caloric restriction (CR) (84,85,140,160,334), mechanistic target of rapamycin (mTOR; originally mammalian TOR) inhibition by rapamycin (173,196,281), and renin-angiotensin system blockade (RAS-bl) (20, 21, 26,63,253,284,354), although the latter has been less studied. In light of these findings, some intriguing questions come to mind: Do these interventions attenuate aging by interfering with common mechanisms? Do the mechanisms that are interfered with by CR, rapamycin, and RAS-bl mutually affect each other? Are there any pathways involved exclusively with a certain intervention?Previously (101), we have discussed the converging effects d...

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Aging increases mitochondrial DNA damage and oxidative stress in liver of rhesus monkeys

Cited by 75 publications

References 58 publications

Understanding Heterogeneity in Supplementation Effects of Selenium in Men: A Study of Stratification Variables and Human Genetics in a Prospective Sample from New Zealand

Understanding Heterogeneity in Supplementation Effects of Selenium in Men: A Study of Stratification Variables and Human Genetics in a Prospective Sample from New Zealand

Oxidative stress, mitochondrial dysfunction and neurodegenerative diseases; a mechanistic insight

Angiotensin II blockade: how its molecular targets may signal to mitochondria and slow aging. Coincidences with calorie restriction and mTOR inhibition

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