Cardiovascular effects of gamma-MSH/ACTH-like peptides: structure-activity relationship.

Intravenous administration of gamma2-melanocyte-stimulating hormone (gamma2-MSH) to conscious rats causes a dose-dependent increase in blood pressure and heart rate, while the structurally related peptide adrenocorticotropic hormone-(4-10) (ACTH-(4-10)) is 5-10 times less potent in this respect. This prompted us to investigate which amino acid sequence is determinant for the cardiovascular selectivity of peptides of the gamma-MSH family. Lys-gamma2-MSH, most likely the endogenously occurring gamma-MSH analog, was as potent as gamma2-MSH in inducing increases in blood pressure and heart rate. Removal of C-terminal amino acids resulted in gamma-MSH-fragments which were devoid of cardiovascular activities. Removal of amino acids from the N-terminal side of gamma2-MSH resulted in fragments which were less potent, but had an intrinsic activity not different from that of gamma-MSH. Surprisingly, gamma-MSH-(6-12) was more potent than gamma2-MSH. The shortest fragment which displayed pressor and tachycardiac responses was the MSH 'core', His-Phe-Arg-Trp (= gamma-MSH-(5-8)), which is identical to ACTH-(6-9). This was corroborated by testing fragments of ACTH-(4-10). We conclude that the message essential for cardiovascular effects resides in the gamma-MSH-(5-8)/ACTH-(6-9) sequence. Proper C-terminal elongation is required for full expression of cardiovascular activity of gamma2-MSH, as the sequence of Asp9-Arg10-Phe11 appears to play an important role in establishing intrinsic activity. The amino acids N-terminal to the MSH 'core' sequence appear to be essential for the potency of the peptides.