Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cromakalim (BRL 34915), a K+ channel activator, and diltiazem relaxed isolated rat aortic rings contracted with a low KCl concentration (25 mM). Gilbenclamide (0.1-3 microM) did not modify base-line resting tension or responses to KCl but prevented the vasorelaxant effects of cromakalim without affecting those of diltiazem or nitrendipine. Cromakalim, in contrast to the latter compounds, did not relax aortic rings contracted with 55 mM KCl. In pentobarbital-anesthetized rats prepared for hemodynamic measurements with Doppler flow probes, a 20-min i.v. infusion of cromakalim (5.0 micrograms/kg/min) lowered mean carotid artery blood pressure. This effect reached maximum after administration and was accompanied by decreases in systemic (35%), hindquarter (45%), mesenteric (27%), and renal (19%) vascular resistances. The blood pressure effects of cromakalim were not modified by BW 755C (lipo and cyclooxygenase inhibitor), idazoxan, methylatropine, methysergide, promethazine, propranolol, SCH 23390 (DA-1 receptor antagonist), S-sulpiride, RP 59227 (antagonist of platelet activating factor receptors) or by bilateral vagotomy associated with ligation of carotid arteries. However, in rats pretreated with the hypoglycemic sulfonylureas glibenclamide or glipizide (20 mg/kg i.v.), cromakalim, in contrast to diltiazem or dihydralazine, failed to produce hypotension. In rats deprived of sympathetic drive by pithing, cromakalim produced only a minor fall in blood pressure; however, this effect became pronounced when the low base-line blood pressure of this preparation was elevated by an i.v. infusion of vasopressin and could be prevented by glibenclamide. In conclusion, cromakalim posseses a novel mechanism of vasorelaxation that is consistent with the activation of a cellular outward K+ current.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vasorelaxant effects of cromakalim in rats are mediated by glibenclamide-sensitive potassium channels. 249 53

This study was designed to characterize the role of vasopressin in impaired pial artery dilation to activators of the ATP sensitive K (K(ATP)) and calcium sensitive K (K(ca)) channel following fluid percussion brain injury (FPI) in newborn pigs equipped with a closed cranial window. Topical vasopressin was coadministered with the K(ATP) and K(ca) channel agonists cromakalim and NS1619 in a concentration approximating that observed in CSF following FPI. Vasopressin so administered attenuated pial artery dilation to these K(+) channel activators under conditions of equivalent baseline diameter during non injury conditions (13+/-1 and 23+/-1 vs. 4+/-1 and 10+/-2% for cromakalim 10(-8), 10(-6) M before and after vasopressin, respectively). Attenuated responses were fully restored when these agonists were coadministered with vasopressin and the vasopressin antagonist [l-(beta-mercapto-beta, beta-cyclopentamethylene propionic acid) 2-(o-methyl)-Tyr-AVP] (MEAVP). Cromakalim and NS1619 induced pial artery dilation was attenuated following FPI and MEAVP preadministration partially prevented such impairment (13+/-1 and 23+/-1, sham control; 2+/-1 and 5+/-1, FPI; and 9+/-1 and 15+/-2%, FPI-MEAVP pretreated for responses to cromakalim 10(-8), 10(-6) M, respectively). These data show that vasopressin blunts K(ATP) and K(ca) channel mediated cerebrovasodilation. These data suggest that vasopressin contributes to impaired K(ATP) and K(ca) channel function after brain injury.
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PMID:Vasopressin impairs K(ATP) and K(ca) channel function after brain injury. 1113 31

This study determined if vasopressin generates superoxide anion (O2(-)) in a cyclooxygenase dependent manner and if such production contributes to impairment of dilation to activators of ATP sensitive K(+) (K(ATP)) and calcium sensitive K(+) (K(ca)) channels following fluid percussion brain injury (FPI) in newborn pigs equipped with closed cranial windows. Superoxide dismutase (SOD) inhibitable nitroblue tetrazolium (NBT) reduction was determined as an index of O2(-) generation. Under non-brain injury conditions, topical vasopressin (40 pg/ml, the concentration present in CSF following FPI) increased SOD inhibitable NBT reduction from 1+/-1 to 25+/-4 pmol/mm(2). Indomethacin, a cyclooxygenase inhibitor, blunted such NBT reduction (1+/-1 to 5+/-1 pmol/mm(2)), while the vasopressin antagonist, l-(beta-mercapto-beta beta-cyclopentamethylene propionic acid) 2-(o-methyl)-Tyr-AVP (MEAVP) blocked NBT reduction. MEAVP and indomethacin also blunted the NBT reduction observed after FPI. Under non-brain injury conditions, vasopressin (40 pg/ml) coadministered with the K(ATP) and K(ca) channel agonists, cromakalim and NS1619 (10(-8), 10(-6) M) diminished dilation to these K(+) channel agonists while indomethacin partially prevented such impairment (13+/-1 and 23+/-1 vs. 4+/-1 and 10+/-2 vs. 8+/-1 and 19+/-1% for cromakalim in untreated, vasopressin, and vasopressin plus indomethacin treated piglets, respectively). Cromakalim and NS1619 induced pial artery dilation was attenuated following FPI, while indomethacin or MEAVP preadministration partially prevented such impairment (13+/-1 and 23+/-1, sham control; 1+/-1 and 4+/-1, FPI; 8+/-1 and 16+/-3%, FPI-indomethacin pretreated for responses to cromakalim 10(-8), 10(-6) M, respectively). These data show that vasopressin increased O2(-) production in a cyclooxygenase dependent manner and contributed to this production after FPI. These data also show that vasopressin blunted K(ATP) and K(ca) channel mediated cerebrovasodilation in a cyclooxygenase dependent manner. These data suggest that vasopressin induced cyclooxygenase dependent O2(-) generation contributes to K(ATP) and K(ca) channel function impairment after FPI.
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PMID:Vasopressin induced cyclooxygenase dependent superoxide generation contributes to K(+) channel function impairment after brain injury. 1148 50