Inhibition of Rho Kinase (ROCK) Leads to Increased Cerebral Blood Flow and Stroke Protection

Overview

Journal Stroke

Specialties Cardiology & Vascular Diseases
Neurology

Date 2005 Sep 6

PMID 16141422

Citations 154

Authors

Yoshiyuki Rikitake

Hyung-Hwan Kim

Zhihong Huang

Minoru Seto

Kazuo Yano

Toshio Asano

Michael A Moskowitz

James K Liao

Affiliations

Soon will be listed here.

Abstract

Background And Purpose: Endothelium-derived nitric oxide (NO) plays a pivotal role in vascular protection. The Rho kinase (ROCK) inhibitor, hydroxyfasudil, prevents the downregulation of endothelial NO synthase (eNOS) under hypoxic conditions. However, it is unknown whether inhibition of ROCK can attenuate ischemia-induced endothelial dysfunction and tissue damage in vivo.

Methods: Human vascular endothelial cells were treated with increasing concentrations of hydroxyfasudil (0.1 to 100 micromol/L) and eNOS expression and activity were measured. To determine the physiological relevance of eNOS regulation by ROCK, we administered fasudil, which is metabolized to hydroxyfasudil in vivo, to mice for 2 days before subjecting them to middle cerebral artery occlusion. Cerebral blood flow, cerebral infarct size, and neurologic deficit were measured.

Results: In a concentration-dependent manner, hydroxyfasudil increased eNOS mRNA and protein expression, resulting in a 1.9- and 1.6-fold increase, respectively, at 10 micromol/L (P<0.05 for both). This correlated with a 1.5- and 2.3-fold increase in eNOS activity and NO production, respectively (P<0.05 for both). Fasudil increased cerebral blood flow to both ischemic and nonischemic brain areas, reduced cerebral infarct size by 33%, and improved neurologic deficit score by 37% (P<0.05). This correlated with inhibition of brain and vascular ROCK activity and increased eNOS expression and activity. Another ROCK inhibitor, Y-27632, also showed similar effects. The neuroprotective effects of fasudil were absent in eNOS-deficient mice.

Conclusions: These findings indicate that the neuroprotective effect of ROCK inhibition is mediated by endothelium-derived NO and suggest that ROCK may be an important therapeutic target for ischemic stroke.

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