Vasoactive agonists prevent erythrocyte extravasation in thrombocytopenic hamsters.

The mediating action of selected vasoactive amines and their respective antagonists on vascular fragility, visible as cutaneous petechiae, was assayed with thrombocytopenic (TCP) hamsters. Serotonin (5-HT), norepinephrine (NE), epinephrine, dopamine and isoproterenol administered IP reduced petechiae significantly within 10 min; phenylephrine had no effect. Of the natural amines, 5-HT and NE were most effective in reducing petechial sensitivity to values obtained with untreated, normal animals; hence these two amines only were tested pharmacologically. Pretreatment of TCP animals with Ketanserin or propranolol, administered IP or IV, abolished any petechial inhibitory action of 5-HT and NE respectively; pretreatment with phenoxybenzamine reduced significantly the NE inhibition of petechiae, but to a lesser degree than propranolol. In contrast, atenolol, prazosin and yohimbine had no significant effect. Ketanserin abolished the action of NE, but adrenoceptor blockers had no effect on 5-HT-treated TCP hamsters. The results suggest that 5-HT and NE inhibition of petechiae may be receptor-mediated and that there may be receptor interaction. This was supported by the observation that non-additive subthreshold doses of 5-HT and NE, which individually did not prevent petechial formation in TCP hamsters, when combined totally inhibited petechiae. The theorized importance of endogenous 5-HT and NE to maintain postcapillary venule junctional integrity (site of petechial hemorrhaging) was also demonstrated by treating normal hamsters with drugs known to block or antagonize either 5-HT or NE uptake. In every instance petechial sensitivity rapidly occurred, and the loss of microvascular integrity in Ketanserin-treated hamsters mimicked quantitatively the petechial sensitivity observed with TCP animals.