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1. Beneficial effect(s) of n-3 fatty acids in cardiovascular diseases: but, why and how?

Author

Das UN

Subjects

Acetylcholine physiology, Animals, Arrhythmias, Cardiac epidemiology, Arrhythmias, Cardiac prevention & control, Brain physiopathology, Cardiovascular Diseases diet therapy, Cardiovascular Diseases epidemiology, Cell Adhesion Molecules biosynthesis, Cell Adhesion Molecules genetics, Cell Division drug effects, Clinical Trials as Topic, Cohort Studies, Cytokines metabolism, Dietary Fats administration & dosage, Dietary Fats therapeutic use, Eicosanoids metabolism, Endothelium, Vascular drug effects, Endothelium, Vascular metabolism, Exercise, Fatty Acids, Omega-3 administration & dosage, Fatty Acids, Omega-3 therapeutic use, Fatty Acids, Unsaturated metabolism, Fish Oils administration & dosage, Fish Oils therapeutic use, Gene Expression Regulation drug effects, Greenland epidemiology, Heart drug effects, Hemostasis drug effects, Humans, Hypothalamo-Hypophyseal System drug effects, Hypothalamo-Hypophyseal System physiopathology, Inflammation drug therapy, Inflammation metabolism, Inflammation prevention & control, Inuit, Japan epidemiology, Lipid Metabolism, Models, Biological, Myocardium metabolism, Oxidation-Reduction, Oxidative Stress, Parasympathetic Nervous System drug effects, Pituitary-Adrenal System drug effects, Pituitary-Adrenal System physiopathology, Rats, Sodium Channels drug effects, Vagus Nerve physiopathology, Cardiovascular Diseases prevention & control, Dietary Fats pharmacology, Fatty Acids, Omega-3 pharmacology, Fish Oils pharmacology

Abstract

Low rates of coronary heart disease was found in Greenland Eskimos and Japanese who are exposed to a diet rich in fish oil. Suggested mechanisms for this cardio-protective effect focused on the effects of n-3 fatty acids on eicosanoid metabolism, inflammation, beta oxidation, endothelial dysfunction, cytokine growth factors, and gene expression of adhesion molecules; But, none of these mechanisms could adequately explain the beneficial actions of n-3 fatty acids. One attractive suggestion is a direct cardiac effect of n-3 fatty acids on arrhythmogenesis. N-3 fatty acids can modify Na+ channels by directly binding to the channel proteins and thus, prevent ischemia-induced ventricular fibrillation and sudden cardiac death. Though this is an attractive explanation, there could be other actions as well. N-3 fatty acids can inhibit the synthesis and release of pro-inflammatory cytokines such as tumor necrosis factoralpha (TNFalpha) and interleukin-1 (IL-1) and IL-2 that are released during the early course of ischemic heart disease. These cytokines decrease myocardial contractility and induce myocardial damage, enhance the production of free radicals, which can also suppress myocardial function. Further, n-3 fatty acids can increase parasympathetic tone leading to an increase in heart rate variability and thus, protect the myocardium against ventricular arrhythmias. Increased parasympathetic tone and acetylcholine, the principle vagal neurotransmitter, significantly attenuate the release of TNF, IL-1beta, IL-6 and IL-18. Exercise enhances parasympathetic tone, and the production of anti-inflammatory cytokine IL-10 which may explain the beneficial action of exercise in the prevention of cardiovascular diseases and diabetes mellitus. TNFalpha has neurotoxic actions, where as n-3 fatty acids are potent neuroprotectors and brain is rich in these fatty acids. Based on this, it is suggested that the principle mechanism of cardioprotective and neuroprotective action(s) of n-3 fatty acids can be due to the suppression of TNFalpha and IL synthesis and release, modulation of hypothalamic-pituitary-adrenal anti-inflammatory responses, and an increase in acetylcholine release, the vagal neurotransmitter. Thus, there appears to be a close interaction between the central nervous system, endocrine organs, cytokines, exercise, and dietary n-3 fatty acids. This may explain why these fatty acids could be of benefit in the management of conditions such as septicemia and septic shock, Alzheimer's disease, Parkinson's disease, inflammatory bowel diseases, diabetes mellitus, essential hypertension and atherosclerosis.

Published

2000