The Role of Endorphins in the Pathophysiology of Hemorrhagic and Endotoxic Shock in the Subhuman Primate.
Abstract
In order to investigate the pathophysiological role of endogenous morphine-like substances (endorphins for short) in shock, we studied cynomolgus monkeys and dogs subjected to hemorrhagic or endotoxic shock. Blockade of opiate receptors with naloxone improved cardiovascular function (mean arterial pressure, cardiac output, and myocardial contractility) in both species and both models but requires correction of acidosis and hypothermia. Shock is associated with elevations in plasma levels of Beta-endorphin and Beta-lipotropin. Using different sites of injection and various pharmacological and anatomical ablations, we have shown that naloxone's beneficial effects in hemorrhagic shock are due to potentiation of the effects of released catecholamines on cardiac opiate receptors. The myocardial depression found in shock is due to an endorphin-induced attenuation of catecholamine effects on the heart. We believe this is mediated by interaction with cardiac receptors and is expressed via G-protein activation of adenylate cyclase and cyclic-AMP. This hypothesis needs to be tested by biochemical determination of these substances, and our observations need to be extended to endotoxic shock. Nevertheless, naloxone and other antiendorphin substances may be important in the treatment of shock by reversing one of the important pathophysiological mechanisms of cardiovascular depression. Keywords: Thyrotropin releasing hormone.
Document Details
- Document Type
- Technical Report
- Publication Date
- Mar 15, 1985
- Accession Number
- ADA189506
Entities
People
- Carl V. Gisolfi
- David G. Reynolds
- Nelson J. Gurll
- Thomas Vargish
Organizations
- University of Iowa