Endorphines: structure, rôles et biogénèse

Abstract

The knowledge of the amino acid sequence of both β-lipotropin (β-LPH) and γ-LPH was the starting point that led to the hypothesis, considered revolutionary in 1967, that hormonal precursors exist. This concept was simultaneously proposed for proinsulin and applied later to other polypeptide hormones. The discovery of endorphins brought together two fields of research that were not related: the opiates and the so-called pituitary lipotropic hormones. The demonstration of specific brain opiate receptors led to the hypothesis of the existence of endogenous opiate ligands which could act as neurotransmittors. The isolation of such substances in the brain, first named enkephalins, revealed through their amino acid sequence their structural homology with the pituitary lipolytic hormones. The finding of a more potent opioid substance in the pituitary (β-endorphin) that comprises the last 31 amino acids of β-LPH shed a new light on the hypothesis proposed earlier which gave to β-LPH a role as a precursor molecule. Finally, the addition of ACTH completed a putative multipotent precursor model that has been recently named pro-opiomelanocortin. Pulse–chase experiments have definitely proven that β-endorphin is a maturation product of a large precursor also containing ACTH and MSH. In other studies, many groups have suggested that endorphins play important roles as possible neuromodulators in pain transmission, in analgesia, in tolerance and dependance, as well as on behavior and endocrine regulations, mainly those related to the hypothalamo–pituitary axes. The elucidation of the biosynthetic process or processes of cerebral endorphins (either enkephalins or β-endorphin) is of primary importance in order to understand better their biological as well as regulatory functions. These studies should also be applicable to the biosynthesis of all the other neuronal peptide hormones. It is hoped that they will provide new tools for the study of some important central nervous system functions, such as pain and endocrine control and the physiopathology of behavioral diseases.