Effects of direct high sodium exposure at endothelial cell migration.

The present study aimed to test the hypothesis that high sodium affects the migratory phenotype of endothelial cells (EC) and investigates mechanisms involved independently of hemodynamic factors. Cell migration was evaluated by Wound-Healing at conditions: High Sodium (HS; 160 mM) and Control (CT; 140 mM). O production was evaluated by DHE.

Dipeptidyl peptidase-4 inhibition prevents vascular dysfunction induced by β-adrenergic hyperactivity.

Chronic stimulation of the β-adrenergic sympathetic system induces vascular dysfunction which is associated with increased inflammatory cytokines production. A recently proposed therapy to control vascular injury through inflammatory processes involves inhibition of the enzyme dipeptidyl peptidase-IV (DPP4). The present study investigates whether the inhibition of DPP4 prevents the increase in inflammatory markers induced by isoproterenol and restores endothelial function in vivo and in vitro.

Exercise Training and Epigenetic Regulation: Multilevel Modification and Regulation of Gene Expression.

Exercise training elicits acute and adaptive long term changes in human physiology that mediate the improvement of performance and health state. The responses are integrative and orchestrated by several mechanisms, as gene expression. Gene expression is essential to construct the adaptation of the biological system to exercise training, since there are molecular processes mediating oxidative and non-oxidative metabolism, angiogenesis, cardiac and skeletal myofiber hypertrophy, and other processes that leads to a greater physiological status.

Exercise training restores the cardiac microRNA-1 and -214 levels regulating Ca2+ handling after myocardial infarction.

Background: Impaired cardiomyocyte contractility and calcium handling are hallmarks of left ventricular contractile dysfunction. Exercise training has been used as a remarkable strategy in the treatment of heart disease. The microRNA-1, which targets sodium/calcium exchanger 1 (NCX), and microRNA-214, which targets sarcoplasmic reticulum calcium ATPase-2a (Serca2a), are involved in cardiac function regulation.

Resistance training regulates cardiac function through modulation of miRNA-214.

Aims: To determine the effects of resistance training (RT) on the expression of microRNA (miRNA)-214 and its target in sarcoplasmic reticulum Ca2+-ATPase (SERCA2a), and on the morphological and mechanical properties of isolated left ventricular myocytes.

Main Methods: Male Wistar rats were divided into two groups (n = 7/group): Control (CO) or trained (TR). The exercise-training protocol consisted of: 4 × 12 bouts, 5×/week during 8 weeks, with 80% of one repetition maximum.

Exercise training in hypertension: Role of microRNAs.

Hypertension is a complex disease that constitutes an important public health problem and demands many studies in order to understand the molecular mechanisms involving his pathophysiology. Therefore, an increasing number of studies have been conducted and new therapies are continually being discovered. In this context, exercise training has emerged as an important non-pharmacological therapy to treat hypertensive patients, minimizing the side effects of pharmacological therapies and frequently contributing to allow pharmacotherapy to be suspended.

Different levels of Hsp72 in female rat myocardium in response to voluntary exercise and forced exercise.

Background: Physical exercise induces hemodynamic stress.

Objective: To evaluate if voluntary running and forced running induced different levels of stress protein (Hsp72) in the myocardium of female Wistar rats.

Methods: Female rats were randomly assigned to the following groups: forced treadmill running group (FR; n= 6), voluntary running group (VR; n=6) and control group (C; n=6).