The New Trends in Physiological and Pathological Actions of Ghrelin (Brain-Heart Axis) on the Heart and Cardiovascular System

Abstract

Background: Ghrelin increased significantly the Left Ventriculus Eject Fraction and end-systolic volume after 30 minutes of intra-venous injection and without alterations heart rate and blood pressure. Ghrelin was discovered in 1999 as an only one 28 amino acid peptides (with octanoyl serine group) located on the short arm of chromosome 3 (position 3p25-26) having six exons, two are noncoding and four introns and encodes a 511 bp mRNA. Ghrelin is synthesized by the endocrine X/A-like cells located from the gastric fundus mucosa through the whole mucosa of the medium right vertical side of the stomach until to the 1 inch before anatomical pylorus. These cells are responsible to produced 80% of the whole ghrelin produced in the human body. Furthermore, other place of this production occurs at the hypothalamus, the pituitary, second portion of duodenum, pancreas, heart and other tissues. Bibliographic references also demonstrate the importance of ghrelin’s action in the main cardiovascular activities. Related to cardiovascular activities, ghrelin plays multitudinous beneficial and thereby help during cardiovascular diseases. Several studies demonstrated that ghrelin cause an anti-inflammatory activity by the inhibition of proinflammatory cytokines which can diminish inflammatory diseases in the heart, pericardium and specific innervations, for instance, vagus nerve and inhibited sympathetic nerves. Outcomes of this review emphasize these important actions of ghrelin. Methods: A systematic review of ghrelin activities over the heart and cardiovascular system with the inclusion of papers in review involved the physiological and physio pathological activities of ghrelin in vivo and in vitro studies. Results: Ghrelin is a natural tide with the growth hormone secretagogue (GHS) receptor (GHS-R) which cloned in 1996. The processes which generate this peptide and ghrelin-related peptides are transcriptional, translational and posttranslational. Homo and heterodimers of GHS-R and other yet unidentified receptors mediate the biological actions of acyl ghrelin and desacyl ghrelin. However, the main biological functions of ghrelin involve the secretion of growth hormone, stimulation of appetite and food intake at the hypothalamus, modulate acid secretion and motility, endocrine and exocrine pancreas secretion, blockaded insulin activity, heart functions and cardiovascular responses and other. Conclusion: One of the main occurrences in acute heart infarction is an increase activation of cardiac sympathetic nerve activity (CSNA) which is one of the causes of chronic cardiac dysfunction (CCD). Ghrelin is an effective for obtain a better cardiac function and by the suppression of renal sympathetic nerve activity which also have an important benefit to the acute myocardial infarction. Therefore, the physiological effects of ghrelin are very important to the body homeostasis even in the grave heart and cardiovascular diseases and in the immunological system.