Microtubule depolymerization facilitates contraction of rat aorta via activation of Rho-kinase.

This study tests the hypothesis that microtubule (MT) depolymerization facilitates contraction of rat aorta via activation of Rho-kinase. Aortic rings from Sprague-Dawley rats were placed in a muscle bath for the measurement of isometric force generation. Bath temperature was decreased from 37 to 10-20 degrees C (30 min), inducing MT depolymerization. Some vessels were treated with nocodazole (10(-5) M) or colchicine (10(-8)-10(-5) M) to stabilize the MTs in the depolymerized state, and the remaining vessels were treated with dimethyl sulfoxide (DMSO: vehicle). Warming of vessels to 37 degrees C induced a significantly greater contraction in nocodazole- and colchicine-treated vessels as compared with controls, and this increase was blocked by pretreatment with taxol (10(-5) M; a MT stabilizing agent) [force (mg): NOC 1159 +/- 93; COL 1138 +/- 69; DMSO 578 +/- 14; TAX + NOC 526 +/- 43; TAX + COL 538 +/- 90]. Following the sustained contraction in response to rewarming, Rho-kinase inhibition with Y-27632 (10(-5) M) relaxed nocodazole- and colchicine-treated rings to a significantly greater extent as compared to DMSO-treated vessels (percent relaxation: NOC 64 +/- 2; COL 65 +/- 5; DMSO 33 +/- 5). These results support the hypothesis that MT depolymerization facilitates contraction of rat aorta via activation of Rho-kinase.