Cerebral vasospasm is the major factor of mortality and morbidity in the pa
tients who have an aneurysmal subarachnoid hemorrhage (SAH). Erythrocyte ly
sate (hemolysate), oxyhemoglobin (OxyHb), and bloody cerebrospinal fluid (C
SF) are the causative agents for vasospasm. However, the signal transductio
n pathways for the action of these spasmogens are not clear. In this study,
we examined the possible effect of these spasmogens on the p21Ras protein,
an important factor in the signal cascade, in rabbit basilar artery. Hemol
ysate enhanced p21Ras precipitation over a 7-day period. The initial increa
se of p21Ras precipitation occurred after the tissues were incubated for 2
days with hemolysate. The peak effect of hemolysate, which was markedly inc
reased compared with control (P<0.05, ANOVA), was observed on day 3. OxyHb
and blood CSF, in contrast, failed to produce consistent or marked changes
in p21Ras precipitation, p21Ras inhibitors FTPase inhibitor 1 and manumycin
abolished hemolysate-induced enhancement of p21Ras immunoprecipitation. Ge
nistein, a tyrosine kinase inhibitor, failed to reduce the effect of hemoly
sate on p21Ras. We concluded that hemolysate activates p21Ras in the rabbit
basilar artery. (C) 2000 Elsevier Science Inc. All rights reserved.