Journal
AMERICAN JOURNAL OF PHYSIOLOGY-REGULATORY INTEGRATIVE AND COMPARATIVE PHYSIOLOGY
Volume 281, Issue 1, Pages R246-R253Publisher
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajpregu.2001.281.1.R246
Keywords
cyclooxygenase; calcium-activated potassium channels; iberiotoxin; membrane potential
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Funding
- NHLBI NIH HHS [HL-62984, HL-49264, HL-14388, HL-38901, HL-16066] Funding Source: Medline
- NINDS NIH HHS [NS-24621] Funding Source: Medline
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Dilatation of cerebral arterioles in response to arachidonic acid is dependent on activity of cyclooxygenase. In this study, we examined mechanisms that mediate dilatation of the basilar artery in response to arachidonate. Diameter of the basilar artery (baseline diameter = 216 +/- 7 mum) (means +/- SE) was measured using a cranial window in anesthetized rats. Arachidonic acid (10 and 100 muM) produced concentration-dependent vasodilatation that was not inhibited by indomethacin (10 mg/kg iv) or N-G-nitro-L-arginine (100 muM) but was inhibited markedly by baicalein (10 muM) or nordihydroguaiaretic acid (NDGA; 10 mM), inhibitors of the lipoxygenase pathway. Dilatation of the basilar artery was also inhibited markedly by tetraethylammonium ion (TEA; 1 mM) or iberiotoxin (50 nM), inhibitors of calcium-dependent potassium channels. For example, 10 mM arachidonate dilated the basilar artery by 19 +/- 7 and 1 +/- 1% in the absence and presence of iberiotoxin, respectively. Measurements of membrane potential indicated that arachidonate produced hyperpolarization of the basilar artery that was blocked completely by TEA. Incubation with [H-3] arachidonic acid followed by reverse-phase and chiral HPLC indicated that the basilar artery produces relatively small quantities of prostanoids but large quantities of 12(S) hydroxyeicosatetraenoic acid (12-S-HETE), a lipoxygenase product. Moreover, the production of 12-HETE was inhibited by baicalein or NDGA. These findings suggest that dilatation of the basilar artery in response to arachidonate is mediated by a product(s) of the lipoxygenase pathway, with activation of calcium-dependent potassium channels and hyperpolarization of vascular muscle.
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