Effects of life-long caloric restriction and voluntary exercise on age-related changes in levels of catecholamine biosynthetic enzymes and angiotensin II receptors in the rat adrenal medulla and hypothalamus.

We examined if life-long mild caloric restriction (CR) alone or with voluntary exercise prevents the age-related changes in catecholamine biosynthetic enzyme levels in the adrenal medulla and hypothalamus. Ten-week-old Fisher-344 rats were assigned to: sedentary; sedentary+8% CR; or 8% CR+wheel running. Rats were euthanized at 6 or 24 months of age.

Anabolic effects of testosterone are preserved during inhibition of 5alpha-reductase.

At replacement doses, testosterone produces only modest increases in muscle strength and bone mineral density in older hypogonadal men. Although higher doses of testosterone are more anabolic, there is concern over increased adverse effects, notably prostate enlargement. We tested a novel strategy for obtaining robust anabolic effects without prostate enlargement.

Cardiac mitochondrial bioenergetics, oxidative stress, and aging.

Mitochondria have been a central focus of several theories of aging as a result of their critical role in bioenergetics, oxidant production, and regulation of cell death. A decline in cardiac mitochondrial function coupled with the accumulation of oxidative damage to macromolecules may be causal to the decline in cardiac performance with age. In contrast, regular physical activity and lifelong caloric restriction can prevent oxidative stress, delay the onset of morbidity, increase life span, and reduce the risk of developing several pathological conditions.

Evaluation of sex differences on mitochondrial bioenergetics and apoptosis in mice.

It has been postulated that the differences in longevity observed between organisms of different sexes within a species can be attributed to differences in oxidative stress. It is generally accepted that differences are due to the higher female estrogen levels. However, in some species males live the same or longer despite their lower estrogen values.

Skeletal muscle apoptosis, sarcopenia and frailty at old age.

The loss of muscle mass and strength with aging, also referred to as sarcopenia of aging, is a highly prevalent condition among older adults and predicts several adverse outcomes, including disability, institutionalization and mortality. Although the exact mechanisms underlying sarcopenia are far to be unveiled, accumulating preclinical evidence suggests that an age-related acceleration of myocytes loss via apoptosis might represent a key mechanism driving the onset and progression of muscle loss. Furthermore, increased levels of apoptosis have also been reported in old rats undergoing acute muscle atrophy subsequent to muscle unloading, a condition that mimics the muscle loss observed during prolonged bed rest.

Mitochondrial DNA mutations and apoptosis in mammalian aging.

Mutations in mitochondrial DNA (mtDNA) accumulate during aging, but their significance to longevity and age-associated disease has been uncertain. Recently, in support of the hypothesis that mtDNA integrity is important, we have shown that age-associated diseases arise more rapidly in mice where mtDNA mutations and increased levels of apoptosis occur at higher rates than normal due to expression of an error-prone mtDNA polymerase. Further studies in this model may provide deeper insights into the relationship between mitochondria, aging, and susceptibility to age-associated diseases, such as cancer.

Impact of inflammation on the relationship among alcohol consumption, mortality, and cardiac events: the health, aging, and body composition study.

Background: Uncertainty remains about the overall survival benefit of alcohol consumption and the mechanisms underlying the cardioprotective effect of light to moderate alcohol intake. Recent evidence suggests an anti-inflammatory effect of light to moderate alcohol consumption. We investigated the relationship of alcohol intake with all-cause mortality and cardiac events and evaluated whether this relationship is mediated or modified by inflammatory markers.

Frailty syndrome and skeletal muscle: results from the Invecchiare in Chianti study.

Background: Frailty is a common condition in elders and identifies a state of vulnerability for adverse health outcomes.

Objective: Our objective was to provide a biological face validity to the well-established definition of frailty proposed by Fried et al.

Design: Data are from the baseline evaluation of 923 participants aged > or =65 y enrolled in the Invecchiare in Chianti study.

Oxidative damage and platelet activation as new predictors of mobility disability and mortality in elders.

Mobility disability is an early phase of the disablement process in older adults, and represents a major risk factor for physical disability and mortality. Pathophysiological mechanisms responsible for the onset of mobility limitation are still largely unknown. Oxidative damage, responsible for the disruption of the equilibrium of biological systems by damaging major constituent molecules, might play an important role in the pathway leading to major health-related events.

Moderate caloric restriction increases diaphragmatic antioxidant enzyme mRNA, but not when combined with lifelong exercise.

Diaphragmatic antioxidant enzymes are upregulated following acute and long-term treadmill exercise, but the effect of lifelong voluntary exercise (E) on diaphragmatic antioxidants is unknown. Therefore, 10-week old Fisher 344 rats were assigned to either: (a) sedentary ad libitum (AL) fed (24AL; n = 6); (b) E + 8% caloric restriction (24ECR; n = 9); or (c) sedentary + 8% caloric restriction (24CR; n = 9) groups. Diaphragms were harvested from animals at 24 months of age.

Hepatic oxidative stress during aging: effects of 8% long-term calorie restriction and lifelong exercise.

Hepatic aging may involve alterations in redox status, resulting in enhanced oxidant production and changes in specific signaling pathways that lead to a pro-inflammatory response. The authors investigated whether mild calorie restriction and long-term voluntary exercise could attenuate these changes. Four groups of male Fischer 344 rats were compared: young (6 mo), old (24 mo), old calorie restricted (8% CR, 24 mo) and old CR with daily voluntary wheel running (Exercise; 8% CR, 24 mo).

Mitochondrial DNA mutations, energy metabolism and apoptosis in aging muscle.

Locomotor functional decline and loss in muscle mass with age is virtually a universal characteristic that has been documented in several species, including worms, fruit flies, rodents, non-human primates and humans. The age-related loss of muscle mass and strength (sarcopenia) represents an important risk factor for disability and mortality in older subjects and has been linked with cellular energy deficit and increased apoptosis at old age. Many key theories on aging describing the mechanisms underlying sarcopenia are now focused on the mitochondria because of their dichotomous role in controlling life and death processes within myocytes.

Effects of caloric restriction and exercise on age-related, chronic inflammation assessed by C-reactive protein and interleukin-6.

Chronic inflammation is associated with the aging process and numerous age-related pathologies. We evaluated the effects of age, caloric restriction (CR), and exercise on plasma C-reactive protein (CRP), interleukin-6, and total antioxidant capacity in Fisher 344 rats. The inflammatory markers were analyzed using enzyme-linked immunosorbent assays (ELISA), while total antioxidant potential was determined by a spectrophotometric method.

C-reactive protein genotype affects exercise training-induced changes in insulin sensitivity.

An etiologic role for chronic inflammation in the development of insulin resistance has been hypothesized. We determined whether the -732A/G and +219G/A C-reactive protein (CRP) gene variants affect insulin and glucose measures and whether these variants affect training-related changes in insulin sensitivity and glucose measures. Men and women 50 to 75 years old (n = 61) underwent baseline testing that included glucose tolerance, maximal oxygen consumption, body composition, CRP levels, and genotyping assessments.

Tumor necrosis factor alpha signaling in skeletal muscle: effects of age and caloric restriction.

Past the age of 50 years, aging individuals lose muscle mass at an approximate rate of 1-2% per year. This age-related muscle atrophy, termed sarcopenia, can have significant effects on individual health and quality of life and can also impact the socioeconomic status. Sarcopenia is due to both a decrease in the number of fibers and the atrophy of the remaining fibers.

A method to determine RNA and DNA oxidation simultaneously by HPLC-ECD: greater RNA than DNA oxidation in rat liver after doxorubicin administration.

We developed a novel method for the simultaneous extraction and analysis of total tissue RNA and DNA to quantify the RNA and DNA oxidation products 8-oxo-7,8-dihydroguanosine and 8-oxo-7,8-dihydro-2'-deoxyguanosine using HPLC coupled to electrochemical detection (HPLC-ECD). The protein denaturing agents guanidine thiocyanate and phenol/chloroform at neutral pH were found to be very efficient for the isolation of RNA and DNA from rat brain, liver and muscle. The method is very fast, allows extraction at 0 degrees C, gives high yields of pure RNA and DNA with low background oxidation levels, and also determines the RNA/DNA ratio.

Effects of acute exercise on lung antioxidant enzymes in young and old rats.

The lung could be the target organ to cellular damage, since it is directly exposed to high concentrations of oxygen. Acute exercise and age would be an added challenge to the lung, and therefore, we investigated alterations of major lung antioxidant enzymes (manganese-superoxide dismutase, Mn-SOD; copper-zinc-SOD, Cu-Zn-SOD; glutathione peroxidase, GPX; catalase, CAT) activities and mRNA expressions in young (4 months old) and old (26 months old) male Wistar rats with exercise. Thioredoxin reductase (TrxR) activity was also investigated.

Vulnerability of the mid aged rat myocardium to the age-induced oxidative stress: influence of exercise training on antioxidant defense system.

This study investigated the onset of age-related changes in the myocardial antioxidant defense system (ADS) and the vulnerability of the myocardium to oxidative stress following exercise training. Few studies have investigated the influence of the most prevalent life-prolonging strategy physical exercise, on the age-dependent alterations in the myocardial antioxidant enzyme system of female rats at mid age and to determine whether exercise-induced ADS could attenuate lipid peroxidation. Two age groups young (3 months old) and mid age (12 months old) Wistar strain female albino rats were given chronic exercise training for a period of 12 weeks.

Caloric restriction in humans: potential pitfalls and health concerns.

To date, the only intervention that has consistently been shown to slow the rate of aging, and to increase mean and maximum lifespan in short-lived species, is life-long calorie restriction. It is yet unclear whether long-term calorie restriction in longer lived species (i.e.

WITHDRAWN: Life-long caloric restriction counteracts apoptotic effects of aging in the brain and bolsters the action of apoptosis inhibitors.

Ahead of Print article withdrawn by publisher.

Exercise by lifelong voluntary wheel running reduces subsarcolemmal and interfibrillar mitochondrial hydrogen peroxide production in the heart.

Evidence suggests that mitochondrial dysfunction and oxidant production, in association with an accumulation of oxidative damage, contribute to the aging process. Regular physical activity can delay the onset of morbidity, increase mean lifespan, and reduce the risk of developing several pathological states. No studies have examined age-related changes in oxidant production and oxidative stress in both subsarcolemmal (SSM) and interfibrillar (IFM) mitochondria in combination with lifelong exercise.

The role of apoptosis in age-related skeletal muscle atrophy.

Skeletal myocyte atrophy and death contribute to sarcopenia, a condition associated with normal aging. By 80 years of age, it is estimated that humans generally lose 30-40% of skeletal muscle fibres. The mechanism for this loss is unknown; however, it may involve apoptosis.

Energy expenditure of calorically restricted rats is higher than predicted from their altered body composition.

Debate exists over the impact of caloric restriction (CR) on the level of energy expenditure. At the whole animal level, CR decreases metabolic rates but in parallel body mass also declines. The question arises whether the reduction in metabolism is greater, smaller or not different from the expectation based on body mass change alone.

Lifelong aspirin supplementation as a means to extending life span.

Arising from an initiative by the National Institute of Aging (NIA) requesting novel proposals challenged with increasing lifespan and longevity, our laboratory has generated a hypothesis to test the efficacy of lifelong, low-dosage aspirin administration as a means to achieving this goal. The intervention testing program (currently underway) proposing aspirin as an anti-aging agent evolved from the multitude of properties encompassed in aspirin and the potential of these attributes to prevent the cellular and functional declines, particularly from inflammatory and oxidative sources, evidenced to contribute to aging. Aspirin is a widely administered, cheap, anti-inflammatory, and antioxidant compound that has a variety of positive effects on the immune system and cardiovascular health.