Gender specific association of genetic variation in peroxisome proliferator-activated receptor (PPAR)gamma-2 with longevity.

Long-lived subjects have been shown to have peculiar anthropometric features (i.e. lower body mass index (BMI)) and metabolic parameters (i.e. improved insulin sensitivity). Life style and a genetic background potentially protective against the age-related metabolic derangement might contribute to such a particular phenotype. Peroxisome proliferator-activated receptor (PPAR)gamma-2 is an important regulator of adipose tissue metabolism, insulin sensitivity and inflammatory response. Thus, the potential role of genetic variability at Pro/Ala loci of PPARG gene on longevity was studied in 222 long-lived subjects and 250 aged subjects. We found a different Pro/Ala genotype frequency distribution between long-lived and aged men subjects, long-lived men having an increased frequency of Pro/Ala genotype (20 vs 8.5%); no differences was found when allele and genotype distribution of Pro/Ala gene polymorphism were analyzed in the two age group of women. Interestingly, subjects with Pro/Ala polymorphism had significantly lower BMI than Ala/Ala and Pro/Pro polymorphism. In conclusion, our study demonstrated that paraoxonase Pro/Ala gene polyporphism is associated with human longevity. Such an effect is probably due to the effect of Pro/Ala polymorphism on body composition and appears to be gender specific.

Polymorphic variants of insulin-like growth factor I (IGF-I) receptor and phosphoinositide 3-kinase genes affect IGF-I plasma levels and human longevity: cues for an evolutionarily conserved mechanism of life span control.

Current literature indicates that abrogation of the IGF-I response pathway affects longevity in Caenorhabditis elegans, and that the down-regulation of IGF-I gene expression is associated with an extension of the life span in mice. In this paper we tested the hypothesis that polymorphic variants of IGF-I response pathway genes, namely IGF-IR (IGF-I receptor; G/A, codon 1013), PI3KCB (phosphoinositol 3-kinase; T/C, -359 bp; A/G, -303 bp), IRS-1 (insulin receptor substrate-1; G/A, codon 972), and FOXO1A (T/C, +97347 bp), play a role in systemic IGF-I regulation and human longevity. The major finding of this investigation was that subjects carrying at least an A allele at IGF-IR have low levels of free plasma IGF-I and are more represented among long-lived people. Moreover, genotype combinations at IGF-IR and PI3KCB genes affect free IGF-I plasma levels and longevity. These findings represent the first indication that free IGF-I plasma levels and human longevity are coregulated by an overlapping set of genes, contributing to the hypothesis that the impact of the IGF-I/insulin pathway on longevity is a property that has been evolutionarily conserved throughout the animal kingdom.

Evidence for reduction of pro-atherosclerotic properties in platelets from healthy centenarians.

The aim of the present study was to investigate if aging is associated with platelet membrane modifications possibly related with cellular activation and hyperaggregability and if platelets from centenarians show different properties which might play a role in successful aging and longevity. Platelet plasma membranes were obtained from 60 healthy subjects, divided into four groups according to the age range: (1) 21-39 years; (2) 40-59 years; (3) 60-79 years; (4) centenarians (>/=100 years). Both centenarians and control subjects were submitted to the following inclusion criteria: liver, kidney, and thyroid function tests within the normal range; absence of history of diabetes, hypertension or coronary heart disease; no signs of edema or dehydration; no drug or vitamin supplement in the 4 weeks before the study; absence of Alzheimer's disease or secondary dementia. The following determinations were performed: lipid peroxide levels (Lp) evaluated by the measurement of thiobarbituric acid (TBA) reactivity, fluidity studied by the fluorescence anisotropy of the probe 1-(4-trimethylaminophenyl)-6-phenyl-1,3,5-hexatriene (TMA-DPH), Na(+)/K(+)-ATPase activity measured by the method of Kitao and Hattori, and sialic acid (SA) content evaluated by the periodate-thiobarbituric acid method. Centenarians showed: (i) Lp concentrations lower than elderly subjects; (ii) increased Na(+)/K(+)-ATPase activity compared with adult and elderly subjects; (iii) higher TMA-DPH anisotropy than elderly subjects; (iv) SA content similar to the young and adult groups.The present work found deep platelet membrane modifications in centenarians compared with elderly subjects. These changes are likely associated with a decreased platelet activation and therefore might exert a protective role against cardiovascular accidents, as platelet activation is a key event in the initiation and progression of arteriosclerosis.

Residual C-peptide secretion and endothelial function in patients with Type II diabetes.

Recent studies have demonstrated that C-peptide exerts beneficial effects on endothelial function. To investigate the relationship between residual pancreatic C-peptide secretion and endothelial function in patients with well controlled or poorly controlled Type II diabetes, we studied 100 patients with Type II diabetes that were free from diabetic neuropathy. In all patients, insulin resistance, residual pancreatic C-peptide secretion, endothelial function and oxidative stress were investigated using the homoeostasis model assessment (HOMA) index, glucagon bolus test, brachial reactivity, Trolox equivalent antioxidant capacity (TEAC) and thiobarbituric acid-reacting substances (TBARS). The patients were categorized into quartiles on the basis of plasma HbA(1c) (glycated haemoglobin) concentration. Analysis of the data showed significant increases in plasma glucose concentration, HOMA index, microalbuminuria and TBARS, and significant decreases in plasma C-peptide, AUC (area under the curve) plasma C-peptide and TEAC, through the different quartiles (from the lowest to the highest HbA(1c) concentration). With regard to parameters of endothelial function, changes in diameter showed a significant declining trend through the different quartiles. Endothelial-dependent changes in diameter were independently and significantly associated with AUC C-peptide levels, TEAC and TBARS. In conclusion, our study demonstrated that patients with Type II diabetes with good residual C-peptide secretion are better protected from endothelial dysfunction that those with poor C-peptide secretion.

Glucose regulation and oxidative stress in healthy centenarians.

Aging, oxidative stress and insulin resistance are strongly correlated. There is a growing body of evidence showing that aging is associated with a significant rise in oxidative stress mainly due to a decline in anti-oxidant activity and a rise in pro-oxidant factors such as glucose and insulin concentrations. Furthermore, aging is also associated with a progressive rise in insulin resistance which is due to a complex network of environmental, anthropometric and neuro-hormonal factors. It is noteworthy that extreme longevity, e.g. centenarians, is associated with a low degree of oxidative stress and insulin resistance. The causes for such differences between aged subjects and centenarians is not fully understood. It is likely that a specific genetic background might play a role. However, the insulin gene does not seem to be involved for explaining such age-related differences.

Chronic inflammation and the effect of IGF-I on muscle strength and power in older persons.

Deregulation of the inflammatory response plays a major role in the age-related decline of physical performance. The causal pathway leading from inflammation to disability has not been fully clarified, but several researches suggest that interleukin-6 (IL-6) causes a reduction of physical performance in elderly through its effect on muscle function. In vitro studies demonstrated that IL-6 inhibits the secretion of insulin-like growth factor I (IGF-I) and its biological activity, suggesting that the negative effect of IL-6 on muscle function might be mediated through IGF-I. We evaluated the joint effect of IGF-I and IL-6 on muscle function in a population-based sample of 526 persons with a wide age range (20-102 yr). After adjusting for potential confounders, such as age, sex, body mass index, IL-6 receptor, and IL-6 promoter polymorphism, IL-6, IGF-I, and their interaction were significant predictors of handgrip and muscle power. In analyses stratified by IL-6 tertiles, IGF-I was an independent predictor of muscle function only in subjects in the lowest IL-6 tertile, suggesting that the effect of IGF-I on muscle function depends on IL-6 levels. This mechanism may explain why IL-6 is a strong risk factor for disability.

Relationship between autonomic cardiac activity, beta-cell function, anthropometrics and metabolic indices in type II diabetics.

OBJECTIVE: Recent studies have demonstrated that C-peptide exerts beneficial effects on the diabetic state, including improvements in kidney and nerve function. Thus, we investigated the effect of residual pancreatic C-peptide secretion on the cardiac autonomic nervous system in well- and poorly controlled type II diabetic patients. DESIGN: Randomised cross-sectional study. PATIENTS: Forty type II diabetic patients free from diabetic neuropathy, with similar anthropometric parameters, volunteered for our study. MEASUREMENTS: Insulin action, residual pancreatic C-peptide secretion and the cardiac autonomic nervous system were investigated by euglycaemic hyperinsulinaemic clamp, glucagon bolus test and heart rate variability, respectively. M-values were used as an index of insulin sensitivity. High frequency (HF) and low frequency (LF) oscillations in heart rate were analysed. RESULTS: The patients were categorized into those with good (HbA1c < or = 7.0) and poor (HbA1c > or = 8.0) metabolic control. The patients with good metabolic control had fasting plasma glucose and C-peptide levels, plasma area under the curve (auc) insulin and C-peptide levels, M-values, LF values and LF/HF ratio significantly lower than patients with poor metabolic control. In contrast, RR interval, total power and HF values had an opposite trend. Basal plasma C-peptide correlated with LF/HF in patients with good (r = -0.42; P < 0.05) and poor metabolic control (r = -0.45; P < 0.05). An even stronger correlation between auc C-peptide and LF/HF in patients with good (r = -0.53, P < 0.002) and poor metabolic control (r = -0.49; P < 0.03), as well as in the whole group (r = -0.83; P < 0.001) was found. By multiple regression analyses performed in all patients, LF/HF were independently associated with auc C-peptide (t = -8.618; P < 0.001) but not basal C-peptide levels (t = -0.137; P < 0.88). CONCLUSION: Our study demonstrated that preserved C-peptide secretion is associated with a well balanced cardiac autonomic activity in type II diabetic patients.

Elevated plasma activator inhibitor 1 is not related to insulin resistance and to gene polymorphism in healthy centenarians.

Previous studies demonstrated a relationship between the degree of insulin resistance and plasma plasminogen activator inhibitor type-1 (PAI-1) levels. We aim at investigating the relationship between the degree of insulin resistance and plasma PAI-1 levels in aged subjects (n=83) and in healthy centenarians (n=42). In all subjects the degree of insulin resistance was assessed by HOMA method. Our data demonstrated that healthy centenarians have higher plasma PAI-1 levels (73.1+/-13.9 vs 23.7+/-14.7 ng/ml, P<0.001) and lower degree of insulin resistance (1.4+/-0.5 vs 3.3+/-1.3, P<0.001) than aged subjects. In aged subjects plasma PAI-1 levels correlated with the degree of insulin resistance (r=0.61, P<0.001), fasting plasma triglycerides (r=0.74, P<0.001) and age (r=0.33, P<0.001). All such associations were lost in centenarians. Plasma PAI-1 Ag levels were also similar in aged subjects and centenarians even after categorization for PAI gene polymorphism. In multivariate analysis, a model made by age, sex, body mass index, fasting plasma triglycerides, HOMA and PAI-1 gene explained 65 and 50% of plasma PAI-1 level variations in aged subjects and centenarians, respectively. Nevertheless, HOMA (P<0.001) was significantly and independently associated with plasma PAI-1 levels only in aged subjects. In conclusion, our data demonstrates that in healthy centenarians, plasma PAI-1 were not associated with the degree of insulin resistance as in aged subjects. Frequency of PAI-1 genotype does not provide an explanation for such differences between aged subjects and centenarians.

LL-paraoxonase genotype is associated with a more severe degree of homeostasis model assessment IR in healthy subjects.

The LL genotype among subjects with paraoxonase (PON) polymorphism Met-Leu 54 has been shown to be associated with elevated risk of coronary heart disease. Indeed, insulin resistance (IR) is a well known cardiovascular risk factor that is likely attributable to a genetic background, lifestyle, and environmental factors such oxidative stress. Because subjects sharing the LL genotype have a more elevated degree of oxidative stress, one cannot rule out that in those subjects a more severe degree of IR can occur. Thus, the possible relationship between PON gene polymorphism and degree of IR was investigated. In 213 healthy subjects, the degree of IR was assessed by the homeostasis model assessment, and the Met-Leu 54 PON polymorphism was detected. The frequency was 0.366 for the LL genotype, 0.469 for the LM genotype, and 0.164 for the MM genotype. Comparing the three genotype groups, LL genotype had the more severe degree of IR, compared with LM (P < 0.01) and MM (P < 0.01) genotypes. No difference between LM and MM genotypes was found (P = 0.49). Subjects carrying the LL genotype were associated with the IR syndrome picture more than individuals carrying the M allele because they were more overweight and had the highest levels of triglycerides and blood pressure and the lowest values of plasma high-density lipoprotein cholesterol. In a multivariate stepwise regression analysis, LL genotype was a significant predictor of IR, independent of age, sex, body mass index, fasting plasma triglycerides, and high-density lipoprotein cholesterol (P < 0.001). In conclusion, the presence of LL PON genotype is associated with a more severe degree of IR. Thus, IR might be the possible missing link between Met-Leu 54 PON polymorphism and the increased cardiovascular risk.