Objective: To determine the relationship between central adiposity parameters and autonomic nervous system (ANS) dysfunction. Subjects and Methods: The study included 114 obese individuals without any cardiovascular risk factors. Weight (in kg), height (in m), and waist circumference (WC; in cm) were measured and body mass index was calculated. Echocardiographic examination was performed to measure left ventricular mass and epicardial fat thickness (EFT). All the participants underwent an exercise test and electrophysiological evaluation using electromyography. Heart rate recovery (HRR) at 1-5 min, R-R interval variation at rest and during hyperventilation, and sympathetic skin response were measured. Pearson's correlation analysis was used. Multiple linear regression analysis was used to identify the factors associated with autonomic dysfunction. Results: The HRR at 1-5 min was negatively correlated with WC and age (WC-HRR1: r = -0.32; WC-HRR2: r = -0.31; WC-HRR3: r = -0.26; WC-HRR4: r = -0.23; WC-HRR5: r = -0.21; age-HRR2: r = -0.32; age-HRR3: r = -0.28; age-HRR4: r = -0.41; age-HRR5: r = -0.42). Age was the only independent predictor of reduced HRR at 1-5 min. In addition, WC predicted a reduced HRR at 3 min. There were no significant associations between central obesity and electrophysiological parameters. EFT was not associated with ANS dysfunction. Conclusion: In this study, central adiposity and aging were associated with ANS dysfunction in obese individuals. The WC could be a marker of ANS dysfunction in obese individuals without any cardiovascular risk factors. The HRR assessment at a later decay phase could be more valuable for evaluating ANS function than during early recovery.
Exendin-4 is a GLP-1 analog used for the treatment of type 2 diabetes mellitus in its synthetic form. As women with diabetes have higher breast cancer incidence and mortality, we examined the effect of the incretin drug exendin-4 on breast cancer cells. The aim of the study is to investigate anticancer mechanism of exendin-4 in MCF-7 breast cancer cells. Cytotoxic effects of exendin-4 were determined by XTT assay. IC50 dose in MCF-7 cells were detected as 5 μM at 48th hour. Gene messenger RNA (mRNA) expressions were evaluated by real-time PCR. According to results, caspase-9, Akt, and MMP2 expression was reduced in dose group cells, compared with the control group cells. p53, caspase-3, caspase-8, caspase-10, BID, DR4, DR5, FADD, TRADD, PARP, PTEN, PUMA, NOXA, APAF, TIMP1, and TIMP2 expression was increased in dose group cells, compared with the control group cells. Effects of exendin-4 on cell invasion, colony formation, and cell migration were detected by Matrigel chamber, colony formation assay, and wound-healing assay, respectively. To conclude, it is thought that exendin-4 demonstrates anticarcinogenesis activity by effecting apoptosis, invasion, migration, and colony formation in MCF-7 cells. Exendin-4 may be a therapeutic agent for treatment of breast cancer as single or in combination with other agents. More detailed researches are required to define the pathways of GLP-1 effect on breast cancer cells because of the molecular biology of breast cancer that involves a complex network of interconnected signaling pathways that have role in cell growth, survival, and cell invasion.
Pentraxin 3 (PTX3) is an acute-phase protein that shares structural homology with C-reactive protein (CRP). Because obesity and metabolic syndrome (MetS) are considered chronic inflammatory states, PTX3 might be involved in the pathogenesis of obesity and MetS as well as CRP. In this study, we aimed to investigate the relationships between PTX3, CRP, body fat distribution and carotid intima media thickness (CIMT). 73 obese premenopousal women and 53 women with normal body mass index (BMI) took part in this study. Body fat distribution was evaluated by ulrasonography and by Bioelectrical Impedance Analysis (BIA). PTX3 was similar in both groups. PTX3 was also similar in obese patients with and without insulin resistance. CRP is significantly higher in obese patients (p < 0.01). It was also significantly higher in insulin resistance obese patients (p < 0.01). There was no correlation between BMI and any of the inflamatory markers. Multiple regression analysis showed that PTX3 is positively correlated with waist circumference (WC) (p = 0.036, beta = +0.436) and negatively correlated with subcutaneous fat (SCF) (p = 0.011, beta = -0.310). In conclusion, although PTX3 levels were not higher in obese patients and have no correlation with visceral fat, PTX3 levels were correlated with WC. In premenoposal obese women PTX3 levels were not related to subclinical atherosclerosis measured by CIMT.
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