Melanocortin peptides are known to be extremely potent in causing the sustained reversal of different shock conditions, both in experimental animals and humans; the mechanism of action includes an essential brain loop. Three melanocortin receptor subtypes are expressed in brain tissue: MC(3), MC(4,) and MC(5) receptors. In a volume-controlled model of hemorrhagic shock in anesthetized rats, invariably causing the death of control animals within 30 min after saline injection, the i.v. bolus administration of the adrenocorticotropin fragment 1-24 (agonist at MC(4) and MC(5) receptors) at a dose of 160 microg/kg i.v. (54 nmol/kg) produced an almost complete and sustained restoration of cardiovascular and respiratory functions. An equimolar dose of gamma(1)-melanocyte stimulating hormone (selective agonist at MC(3) receptors) was completely ineffective. The selective antagonist at MC(4) receptors, HS014, although having no influence on cardiovascular and respiratory functions per se, dose-dependently prevented the antishock activity of adrenocorticotropin fragment 1-24, with the effect being complete either at the i.v. dose of 200 microg/kg or at the i.c.v. dose of 5 microg/rat (17-20 microg/kg). We concluded that the effect of melanocortin peptides in hemorrhagic shock is mediated by the MC(4) receptors in the brain.