Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0020440 (hypercapnia)
7,939 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypercapnic cerebral vasodilation in piglets is accompanied by increased cerebral prostanoid synthesis. Interventions that prevent the increased prostanoids also interfere with the vasodilation. However, the increased prostanoids may not produce vasodilation directly; instead, they may allow or enhance function of another mechanism. The present experiments examined the hypothesis that prostacyclin can allow, but may not directly produce, cerebral vasodilation to hypercapnia. Chloralose-anesthetized piglets were equipped with closed cranial windows for measurements of pial arteriolar diameters. Hypercapnia (arterial CO2 partial pressure approximately 70 mmHg) was administered before and after indomethacin (5 mg/kg iv) in all animals. Then artificial cerebrospinal fluid (aCSF) under the cranial window was replaced for the remainder of the experiment with aCSF containing vehicle, carbaprostacyclin (60 pM), iloprost (1 pM), prostaglandin E2 (PGE2; 1.7 and 3.3 nM), isoproterenol (10 and 100 nM), or sodium nitroprusside (1 microM), and hypercapnia was repeated. The two prostacyclin receptor agonists restored cerebral vasodilation to hypercapnia that had been blocked by indomethacin (to 92 +/- 31% and 76 +/- 11% of the before-indomethacin dilation for carbaprostacyclin and iloprost, respectively.) The highest dose of PGE2 partially restored the dilation (43 +/- 7% of the pre-indomethacin response). In contrast, neither isoproterenol nor sodium nitroprusside permitted significant dilation to hypercapnia following indomethacin treatment. These data indicate that prostacyclin can allow hypercapnic vasodilation to occur, but increasing levels do not appear to be necessary to cause the dilation directly. The short half-life of prostacyclin may explain why active prostanoid synthesis appears to be necessary for hypercapnia-induced cerebral vasodilation in newborn pigs.
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PMID:Permissive role of prostacyclin in cerebral vasodilation to hypercapnia in newborn pigs. 751 7

The present study addresses the hypothesis that indomethacin, in addition to blocking prostaglandin synthesis, directly inhibits prostacyclin receptor-mediated cerebral vascular responses. To test this hypothesis, the effects of indomethacin on pial arteriolar dilation in response to the prostacyclin receptor agonist iloprost were investigated using a cranial window technique in newborn pigs. Topically applied iloprost resulted in dose-dependent pial arteriolar dilation and concomitant increases in cortical adenosine 3',5'-cyclic monophosphate (cAMP). Indomethacin (5 mg/kg iv + 10(-4) M topically) greatly reduced both the vasodilation and the increase in cortical cAMP in response to iloprost. In contrast, indomethacin did not attenuate beta-adrenoreceptor-mediated vasodilation and the increase in cortical cAMP in response to isoproterenol. Aspirin (50 mg/kg iv + 10(-3) M topically) did not affect pial arteriolar dilation or the increase in cortical cAMP in response to iloprost. Unlike indomethacin, aspirin was not effective in inhibiting prostanoid-associated cerebral vasodilation and increase in cortical cAMP in response to hypercapnia. The present data suggest that indomethacin selectively inhibits prostacyclin receptor-mediated responses in the newborn pig cerebral circulation. The combination of highly effective inhibition of prostaglandin H synthase and prostacyclin receptor-mediated vasodilation may contribute to the increased efficacy of indomethacin compared with other prostaglandin H synthase inhibitors in blocking certain vasodilator responses associated with prostanoids.
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PMID:Inhibitory effect of indomethacin on prostacyclin receptor-mediated cerebral vascular responses. 753 91

The involvement of protein kinase C (PKC) and protein tyrosine kinase (PTK) in hypercapnia-induced cerebral vasodilation in newborn pigs was investigated with closed cranial windows using the PKC stimulator phorbol 12-myristate 13-acetate (PMA), and the PTK inhibitors, genistein and herbimycin A. The influence of prostaglandin I2 was eliminated using the prostaglandin cyclooxygenase inhibitor, indomethacin. Changes in pial arteriolar diameters in response to hypercapnia [partial pressure of arterial CO2 approximately 9.3 kPa (70 torr)] were analyzed. Genistein (40 micrograms/mL), herbimycin A (10 microM), or PMA (1 microM) did not affect cerebral vasodilation to hypercapnia when applied topically. Indomethacin (5 mg/kg i.v.) treatment blocked the dilation to hypercapnia and attenuated hypercapnia-induced increase in cortical cAMP. Genistein and herbimycin A restored the response to hypercapnia to indomethacin-treated piglets. PMA also restored the pial arteriolar dilation and the cAMP response to hypercapnia to indomethacin-treated piglets. One-hour exposure to 10 microM PMA, to down-regulate PKC, blocked vasodilation to hypercapnia but did not inhibit vasodilation to sodium nitroprusside. After prolonged (2 h) topical exposure of indomethacin-treated piglets to 10 microM PMA, neither genistein nor iloprost could restore dilation to hypercapnia. These results indicate that PKC stimulation and/or PTK inhibition may permit hypercapnia-induced vasodilation. These data further suggest that PKC is downstream from PTK in the regulatory pathway. Because previous data showed prostaglandin I2 at subdilator concentrations can also return dilation to hypercapnia to piglets treated with indomethacin, prostaglandin I2 could provide its permissive input by activating PKC and/or inhibiting PTK.
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PMID:Protein kinase Cs and tyrosine kinases in permissive action of prostacyclin on cerebrovascular regulation in newborn pigs. 897 94

The aim of the present study was to determine whether neuronal nitric oxide synthase (nNOS)-derived nitric oxide (NO) plays a permissive role in the regulation of cerebral blood flow (CBF) response to hypercapnia. To this end, we examined whether the administration of NO donors could reestablish the regional CBF (rCBF) response to hypercapnia after nNOS inhibition with 7-nitroindazole (7-NI). Rats were anesthetized with 1% halothane, and rCBF in the cortex was measured by laser-Doppler flowmetry. The administration of 7-NI (40 mg/kg ip) decreased resting rCBF by 17 +/- 5% (n = 6, P < 0.05) and attenuated the rCBF response to hypercapnia by 30 +/- 8% in comparison with the response seen in rats treated with the vehicle (peanut oil) alone. Intracerebroventricular administration of NO donors, sodium nitroprusside (SNP; n = 7) and (Z)-1-[N-methyl-N-[6(N-methylammoniohexyl)aminol]]diazen+ ++-1-ium-1,2-diolate (MAHMA NONOate; n = 6) in a dose of 0.1-1 nmol/min after 7-NI restored both resting rCBF to baseline and the vasodilatory response to hypercapnia. In contrast, intravenous infusion of SNP (0.05-0.5 nmol/min, n = 6) or intracerebroventricular administration of an NO-independent vasodilator, the stable prostaglandin I2 analog iloprost (0.01-0.1 nmol/min, n = 6), after 7-NI failed to restore the vasodilatory response to hypercapnia, despite the fact that it restored the resting rCBF to baseline. nNOS activity, assessed by the conversion of labeled arginine to citrulline, was inhibited by 70 +/- 7% after the administration of 7-NI. These findings confirm that the selective inhibition of nNOS decreases resting rCBF and attenuates the rCBF response of hypercapnia. They further indicate that the repletion of intraparenchymal NO allows the hypercapnic cerebrocortical vasodilation to occur. Therefore, it is suggested that the nNOS-derived NO plays a permissive role in the CBF response to hypercapnia.
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PMID:Neuronal NOS-derived NO plays permissive role in cerebral blood flow response to hypercapnia. 903 79

Prostacyclin permissively allows increased cAMP and cerebral vasodilation to hypercapnia in piglets. The prostacyclin receptor (IP) is coupled to phospholipase C (PLC) in piglet cerebral microvascular smooth muscle cells (SMC). We hypothesize that inhibition of PLC blocks the permissive action of IP receptor agonist, iloprost, and direct activation of PKC substitutes for the IP receptor agonist in SMC. SMC cAMP production was measured at normal pHi/pHo and with reduced pHi/pHo in the absence and presence of iloprost (100 pM). Half of the cells were pretreated with U73122, the PLC inhibitor, which decreased the basal IP3 and blocked the increase in IP3 caused by iloprost. Without iloprost, decreasing pHi/pHo increased cAMP production (40%). With iloprost, the cAMP response to acidosis increased to over 80%. U73122 prevented accentuation of the cAMP response by iloprost. Phorbol myristate acetate augmented the response to acidosis similarly to iloprost. These data suggest IP agonists augment the cAMP response to acidosis via coupling through PLC to activate PKC.
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PMID:Mechanism of permissive prostacyclin action in cerebrovascular smooth muscle. 1157 79

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