We postulated that the redistribution of organ blood flow that occurs in hyperdynamic sepsis is secondary to organ-specific alterations in vascular reactivity. Chronically instrumented rats were randomized to cecal ligation and perforation (CLP) (n = 12) or to a control procedure (n = 11). Cardiac output increased from 107 +/- 23 ml/min at baseline to 152 +/- 32 ml/min at 24 h after CLP (p = 0.037 versus control values). Mean blood pressure did not change in either group. Small arterial ring segment (100- to 200-microns effective lumen radius) from the pulmonary, renal, celiac, and femora arteries were obtained for determination of in vitro responsiveness. Maximal contractile responses to three receptor-operated contractile agonists were significantly depressed in the pulmonary (p = 0.001) and the celiac (p = 0.001) arteries from CLP versus control rats. The renal artery showed a trend toward decreased responsiveness (p = 0.049), but not difference was seen in the femoral artery (p = 0.172). EC50 values were unchanged. A similar, but less marked, pattern was observed for KCI-induced contractions in that depressed responses were noted in the pulmonary (p = 0.045) and celiac (p = 0.064) arteries. Vasodilator responses to acetylcholine were normal in all vessels. Nitroprusside relaxant responses were enhanced in the pulmonary artery (p = 0.022), but they were normal in the other vessels. We conclude that hyperdynamic, normotensive sepsis is associated with an organ-specific alteration of vascular smooth muscle function that particularly affects receptor-operated contractile responses. The differential expression of this altered vascular responsiveness between organs may contribute to the observed variance in regional blood flows in sepsis.