Mitochondrial Melatonin: Beneficial Effects in Protecting against Heart Failure.

Cardiovascular disease is the cause of physical infirmity and thousands of deaths annually. Typically, during heart failure, cardiomyocyte mitochondria falter in terms of energy production and metabolic processing. Additionally, inflammation and the accumulation of non-contractile fibrous tissue contribute to cardiac malfunction. Melatonin, an endogenously produced molecule, experimentally reduces the initiation and progression of atherosclerotic lesions, which are often the basis of coronary artery disease. The current review critically analyzes published data related to the experimental use of melatonin to forestall coronary artery pathologies. Collectively, these studies document melatonin's anti-atherosclerotic actions in reducing LDL oxidation and triglyceride levels, lowering endothelial malfunction, limiting adhesion molecule formation, preventing macrophage polarization to the M1 pro-inflammatory phenotype, changing cellular metabolism, scavenging destructive reactive oxygen species, preventing the proliferation and invasion of arterial smooth muscle cells into the lesioned area, restricting the ingrowth of blood vessels from the vasa vasorum, and solidifying the plaque cap to reduce the chance of its rupture. Diabetic hyperglycemia, which aggravates atherosclerotic plaque formation, is also inhibited by melatonin supplementation in experimental animals. The potential value of non-toxic melatonin as a possible inhibitor of cardiac pathology in humans should be seriously considered by performing clinical trials using this multifunctional molecule.

Remodelling of the heart and vessels in experimental hypertension: advances in protection.

Left ventricular hypertrophy (LVH), despite its adaptive nature, increases cardiovascular morbidity and mortality. Novel approaches for protection against pathological heart remodelling are presented in this supplement. Melatonin diminishes myocardial fibrosis in rats exposed to continuous light and N-nitro-L-arginine-methyl ester (L-NAME) treatment and reduces production of endothelium-derived constricting factors in L-NAME-induced hypertension. Melatonin, because of its extraordinary antioxidant and scavenging properties, benefits for endothelium and sympatholytic action, may prove to be a useful protective drug against heart remodelling. In hypertension induced by relative aldosteronism, the correction of macro and micronutrient dyshomeostasis appears to act beneficially within pathological myocardial remodelling. Alterations in the signal cascade of pathological myocardial growth, including humoral stimuli, receptors, intracellular messengers or transcriptional factors, may be favourably modified at different levels. Inhibition of nuclear factor kappa B (NF-kappaB) potentiates hypertension development, enhances oxidative load, increases the cross-sectional area of the aorta and reduces nitric oxide (NO) synthase activity in L-NAME hypertension. It is suggested that NF-kappaB may play a protective rather than a deleterious role in the haemodynamically overloaded circulation. Compound 21, a recently developed peptide angiotensin II type 2 (AT2) receptor agonist, offers a novel approach in investigating the role of AT2 receptors in the protection of the hypertensive heart. A novel NO donor, L-419, with its intrinsic protection of NO, improves the entire NO signalling cascade and thus favourably influencing the response of the left ventricle to haemodynamic overload. LVH prevention or regression should be considered a therapeutic success only when, along with hypertrophied mass reduction, an improvement of the heart structure, function, metabolism and electrical stability is achieved.

Recent trends in hypertension treatment: perspectives from animal studies.

Several newer areas of hypertension research are presented in this supplement. First, the benefits of melatonin in the treatment of experimental hypertension including its cardioprotective effects are introduced. Second, the possible role of melatonin in the non-dipping blood pressure pattern is described. Third, two hypotheses discuss the potential reasons for the ineffectivness of antioxidants in hypertension treatment, and difficulties associated with interpretations of experimental findings in the model of the spontaneously hypertensive rat (SHR). Finally, interactions of indapamide with the nitric oxide system in SHR, the protective effect of angiotensin II type 1 receptor blockade against alterations in insulin-resistant rats, and the deleterious effect of a low protein diet on kidney maturation with the development of hypertension are presented.

Potential roles of melatonin and chronotherapy among the new trends in hypertension treatment.

The number of well-controlled hypertensives is unacceptably low worldwide. Respecting the circadian variation of blood pressure, nontraditional antihypertensives, and treatment in early stages of hypertension are potential ways to improve hypertension therapy. First, prominent variations in circadian rhythm are characteristic for blood pressure. The revolutionary MAPEC (Ambulatory Blood Pressure Monitoring and Cardiovascular Events) study, in 3000 adult hypertensives investigates, whether chronotherapy influences the cardiovascular prognosis beyond blood pressure reduction per se. Second, melatonin, statins and aliskiren are hopeful drugs for hypertension treatment. Melatonin, through its scavenging and antioxidant effects, preservation of NO availability, sympatholytic effect or specific melatonin receptor activation exerts antihypertensive and anti-remodeling effects and may be useful especially in patients with nondipping nighttime blood pressure pattern or with nocturnal hypertension and in hypertensives with left ventricular hypertrophy (LVH). Owing to its multifunctional physiological actions, this indolamine may offer cardiovascular protection far beyond its hemodynamic benefit. Statins exert several pleiotropic effects through inhibition of small guanosine triphosphate-binding proteins such as Ras and Rho. Remarkably, statins reduce blood pressure in hypertensive patients and more importantly they attenuate LVH. Addition of statins should be considered for high-risk hypertensives, for hypertensives with LVH, and possibly for high-risk prehypertensive patients. The direct renin inhibitor, aliskiren, inhibits catalytic activity of renin molecules in circulation and in the kidney, thus lowering angiotensin II levels. Furthermore, aliskiren by modifying the prorenin conformation may prevent prorenin activation. At present, aliskiren should be considered in hypertensive patients not sufficiently controlled or intolerant to other inhibitors of renin-angiotensin system. Third, TROPHY (Trial of Preventing Hypertension) is the first pharmacological intervention for prehypertensive patients revealing that treatment with angiotensin II type 1 receptor blocker attenuates hypertension development and thus decreases the risk of cardiovascular events.