1.
Association of Meteorin-Like Hormone with insulin resistance and body composition in healthy Iranian adults.
Alizadeh, H, Alizadeh, A
Diabetes & metabolic syndrome. 2020;(5):881-885
Abstract
BACKGROUND AND AIMS Sedentary behavior and/or physical inactivity are modifiable risk factors for noncommunicable diseases. Myokines are one of the mediators of physical activity health benefits. Relationship between regular physical activity (RPA) and baseline plasma Meteorin-Like Hormone (Metrnl) has not been explored in human. Hence, we compared baseline plasma Metrnl between sedentary individuals and ones with recreational physical activities, and role of Metrnl as a biological messenger between physical activity and insulin resistance and body composition was also explored. METHODS Forty healthy young men (aged: 21 ± 2.1 yrs; BMI: 23 ± 3.44 kg/m2) completed the study. Participants were equally assigned into two groups of control (sedentary) and case (recreational athletes). Baseline plasma Metrnl, glucose, insulin and body composition components and insulin resistance index (HOMA-IR) were assessed under resting conditions. RESULTS Except for baseline blood glucose, baseline plasma Metrnl, insulin, HOMA-IR and body mass index and body fat percentage were similar between two groups (P > 0.05). However, after Metrnl correction for the degree of insulin resistance index (Metrnl/HOMA-IR), recreational athletes showed a significantly greater baseline compared to sedentary subjects (P < 0.05). Baseline blood glucose showed a negative and significant correlation with baseline plasma Metrnl (P < 0.05). CONCLUSIONS Baseline plasma Metrnl is correlated with regular physical activity and insulin sensitivity, but not with body composition parameters. Metrnl may be one possible mediator of the beneficial effects of PA on insulin sensitivity in healthy humans. Hence, increasing awareness of the benefits of physical activity and incorporating physical activity into lifestyle are of great importance for people with non-communicable diseases.
2.
Decreased plasma endogenous soluble RAGE, and enhanced adipokine secretion, oxidative stress and platelet/coagulative activation identify non-alcoholic fatty liver disease among patients with familial combined hyperlipidemia and/or metabolic syndrome.
Santilli, F, Blardi, P, Scapellato, C, Bocchia, M, Guazzi, G, Terzuoli, L, Tabucchi, A, Silvietti, A, Lucani, B, Gioffrè, WR, et al
Vascular pharmacology. 2015;:16-24
Abstract
OBJECTIVE In patients with familial combined hyperlipidemia (FCHL), without metabolic syndrome (MS), occurrence of non-alcoholic fatty liver disease (NAFLD) is related to a specific pro-inflammatory profile, influenced by genetic traits, involved in oxidative stress and adipokine secretion. Among FCHL or MS patients, hyperactivity of the ligand-receptor for advanced glycation-end-products (RAGE) pathway, as reflected by inadequate protective response by the endogenous secretory (es)RAGE, in concert with genetic predisposition, may identify those with NAFLD even before and regardless of MS. METHODS We cross-sectionally compared 60 patients with vs. 50 without NAFLD. Each group included patients with FCHL alone, MS alone, and FCHL plus MS. RESULTS NAFLD patients had significantly lower plasma esRAGE, IL-10 and adiponectin, and higher CD40 ligand, endogenous thrombin potential and oxidized LDL. The effects of MS plus FCHL were additive. The genotypic cluster including LOX-1 IVS4-14A plus ADIPO 45GG and 256 GT/GG plus IL-10 10-1082G, together with higher esRAGE levels highly discriminate FCHL and MS patients not developing NAFLD. CONCLUSIONS Among FCHL or MS patients, noncarriers of the protective genotypic cluster, with lower esRAGE and higher degree of atherothrombotic abnormalities coincide with the diagnosis of NAFLD. This suggests an interplay between genotype, adipokine secretion, oxidative stress and platelet/coagulative activation, accelerating NAFLD occurrence as a proxy for cardiovascular disease.