Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: EC:4.6.1.2 (
guanylate cyclase
)
8,497
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
EDRF (endothelium-derived relaxing factor) is a cellular and intercellular messenger that activates soluble
guanylate cyclase
. In blood vessels it is released from the endothelium and causes relaxation of vascular smooth muscle. Halothane previously has been shown to attenuate EDRF-induced vasodilation elicited by the receptor-mediated vasodilators acetylcholine and bradykinin and to alter muscarinic receptor activity. We examined and compared the effects of the inhaled anesthetics halothane, enflurane, and isoflurane on endothelium-dependent vasodilation and tested the hypothesis that these agents inhibit EDRF-mediated vasodilation solely through inhibition of endothelial cell receptor-mediated EDRF release. Isolated rat thoracic aortic rings were mounted for isometric tension recording and preconstricted with phenylephrine. Cumulative dose-response curves were obtained to methacholine, a receptor-mediated endothelium-dependent dilator; to A23187, a nonreceptor-mediated endothelium-dependent dilator; and to sodium nitroprusside, a direct-acting endothelium-independent dilator before, during, and after inhalational anesthetic exposure. Both receptor-mediated and non-receptor-mediated endothelium-dependent relaxation by methacholine and A23187, respectively, were significantly (P less than 0.01 to P less than 0.05) and reversibly attenuated by halothane, enflurane, and isoflurane at 2
MAC
and by isoflurane at 1
MAC
. Endothelium-independent relaxation by sodium nitroprusside, an agent that acts directly on the vascular smooth muscle cell to activate
guanylate cyclase
, was unaffected by any of the anesthetics at any concentration tested. Indomethacin had no significant effect on the inhibition of endothelium-dependent vasodilation by these inhalational anesthetics. We conclude that halothane, enflurane, and isoflurane inhibit endothelium-dependent vasodilation; that isoflurane is more potent than halothane and enflurane in this regard.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Halothane, enflurane, and isoflurane attenuate both receptor- and non-receptor-mediated EDRF production in rat thoracic aorta. 159 87
This study investigated the effects of halothane and isoflurane on cGMP-dependent and independent regulation of vascular contraction of the isolated rat aorta and on NO-stimulated soluble
guanylate cyclase
(sGC) isolated from the perfused rat liver. For the studies of the aorta, isometric tension of isolated rings, with and without, endothelium was recorded and cGMP content measured. ACh was used to initiate endothelial-dependent relaxation of norepinephrine (NE)-contracted rings while NO was used to directly stimulate isolated aortic ring sGC which catalyzes the isolated aortic ring formation of cGMP. Both halothane and isoflurane interfered with ACh and NO relaxations and with NO-stimulated increases in cGMP. Halothane was more potent, having significant attenuating effects at 0.34 mM (1
MAC
) and 0.72 mM (2
MAC
) while isoflurane had effects only at 0.53 mM (2
MAC
). For the isolated sGC studies, a soluble liver fraction was prepared from perfused rat livers. In the absence of NO stimulation, neither halothane nor isoflurane modified the activity of the sGC. However, during NO-stimulation halothane produced significant, concentration-dependent, inhibition of sGC activity over a wide range of NO concentrations. Isoflurane also inhibited sGC activity, but to a lesser extent than halothane. The mechanism whereby the anesthetics could interfere with sGC from liver and blood vessels is unknown. It could result from anesthetic interaction at hydrophobic sites that may exist in GC. However, the results of both the aorta and liver sGC enzyme studies support the suggestion that these anesthetics can compete with NO for its binding site on the ferrous heme of sGC, with chemical structural differences accounting for the potency variations. Both anesthetics also had cGMP independent effects, causing concentration dependent relaxations of NE-contracted vessels without endothelium. Isoflurane was about 5 times more effective at 1
MAC
than halothane. Therefore, the net effects of these anesthetics involve the sum of two opposite effects on tension of vessels with intact endothelium: 1) interference with NO-stimulated cGMP relaxation and 2) direct stimulation of relaxation (not dependent on changes in cGMP).
...
PMID:Vascular effects of halothane and isoflurane: cGMP dependent and independent actions. 783 Apr 93
In the mammalian brain, nitric oxide (NO) has been implicated in neuronal signal transmissions. NO stimulates
guanylate cyclase
to increase intracellular cGMP, which in turn activates cGMP-dependent protein kinases (PKG), but the targets of PKG in the brain have not fully been understood. In this study, we examined cGMP-dependent phosphorylation of proteins in rat brain and found that one of the possible substrates was
myristoylated alanine-rich C-kinase substrate
(
MARCKS
), an actin-binding membrane-associated protein that regulates cell adhesion. In addition, possible degradation products of
MARCKS
were observed after transfection of PKG or stimulation with 8pCPT-cGMP. Western blot analysis showed that the MARCKS protein levels were decreased when the cells were stimulated with 8pCPT-cGMP. These results suggest that
MARCKS
is a target of PKG, and PKG-dependent phosphorylation of
MARCKS
results in its degradation to reduce its protein levels in the cells.
...
PMID:cGMP-dependent phosphorylation and degradation of myristoylated alanine-rich C-kinase substrate. 1560 31
