• Journal of Ginseng Research
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• v.10 no.1
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• pp.55-65
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• 1986

Effects of various nucleotides including GMP, glnsenoslde $Rb_2$, and redoxidants on the activities of both particulate and soluble guanylate cyclase from rat brain have been studied. At the low concentra狀onto of GMP, AMP, ADP, and ATP the activity of guanylate cyclase is not substantially affected, whereas the inhibitory effects of these nucleotides on the enzyme activities are increased with the increasing concentrations of the nucleotides. Similarly, the activity of the soluble guanylate cyclase is inhibited with the increasing concentrations of the nucleotides. Inhibitory effects of GMP, AMP, ADP, and ATP on the activities of particulate guanylate cyclase and soluble guanylate cyclase is reduced in the presence of ginsenoside $Rb_2$. It is apparent broom this finding that there are seperate binding sites on the guanylate cyclase molecule specific for nucleootides and for ginsenoside $Rb_2$. $NAD^+$ shows no significant effect on the activities of particulate guanylate cyclase, whereas NADH inhibits the activities of the enzyme. The activity of particulate guanylate cyclase is slightly inhibited by iodine, whereas that of soluble gllanylate cyclase is strongly inhibited.

• Journal of Ginseng Research
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• v.7 no.2
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• pp.148-155
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• 1983

The effects of the five ginsenosides on the activities of particulate adenylate cyclase and particulate guanylate cylase of rat brain have been studied. The range of concentrations of ginsenosides were between 10$\mu\textrm{g}$ and 500$\mu\textrm{g}$ per 500${mu}ell$ reaction mixture, Also, the effects of three ginsenosides on the activity of soluble guanylate cylace have been studied in the same range of concentrations as in particulate adenylate cyclase. Only ginsenoside Re has shown the reciprocal feeects when tested with particulated adenylate cyclase and particulate guanylated cyclase. Regulatory action of the several mononucleotides on the activities of adenylate cyclase and guanylate cyclase was examined. Ginsenoside Rd-inhibited adenylate cyclase was activated in great extent by the addition of increasing amount of GMP. On the other hand, ginsenoside Rc-activated guanylate cyclase was inhibited by the addition of increasing amount of AMP and GMP. The fact that the stimulatory action of GMP is observed only with particulated adenylate cyclase but not with soluble suanylate cyclase suggests that the action is membrane-related one. The competitive action was observed between ginsenoside Rb2 and dopamine in their binding to the receptors. This result is clear-cut evidence that the ginsenoside Rb2 binds specifically to $\beta$-adrenergic receptors.

• The Korean Journal of Pharmacology
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• v.25 no.1
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• pp.59-66
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• 1989

To determine the relation between cGMP and ion reabsorption in rat medullary thick ascending limb of Henle's loop (mTALH) the effects of loop diuretics, furosemide and ethacrynic acid, on the guanylate cyclase of rat mTALH were investigated. The interactions between loop diuretics and cyclooxygenase inhibitors, aspirin and indomethacin, on guanylate cyclase of rat mTALH were also investigated. Furosemide and ethacrynic acid increased guanylate cyclase activity and these effects were not inhibited by aspirin or indomethacin. Arachidonic acid potentiated the stimulatory effect of furosemide on guanylate cyclase. These results suggest that furosemide and ethacrynic acid activate guanylate cyclase directly, and in addition, furosemide affects indirectly via prostaglandin. The reabsorption of sodium chloride may be, at least partially, controlled by cGMP in mTALH.

• The Korean Journal of Zoology
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• v.36 no.3
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• pp.433-438
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• 1993

In the previous paper (Choi et al., 1992), we found that a large but transient elevation in intracellular cGMP levels occur concomitant with the myoblast fusion. To establish the physiological significance of the elevation of cGMP levels, the change in guanylate cyclase activity dudng myoblast fusion and the correlation hetween various chemicals that may affect guanylate cyclase adivity and myoblast fusion were examined. Sodium nitroprusside, a nitric oxide-forming compound, induced a precocious fusion and increased guanylate cyclase activity compared to the control. Furthermore, L-NG-monomethyl arginine, specific inhibitor of L-arginine: nitric oxide synthase, inhibited the cell fusion in a dose-dependent manner, without affecting biochemical differentiation. On the basis of our present findings, we propose that the onset of myoblast fusion is somehow correlated with the rise in cellular cGMP levels that is regulated by the activation or inhibItIon of soluble guanylate cyclase, via as yet undefined mechanism but possibly through L-arginine: nitric oxide pathway.

• The Korean Journal of Pharmacology
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• v.29 no.2
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• pp.245-252
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• 1993

Amiloride is a potassium sparing duretic which specifically inhibits $Na{^+}$ channels. In the present study, we investigated the possible interaction of amiloride with $A_1$ adenosine receptors-adenylyl cyclase system in crude adipocytic plasma membrane fractions prepared from Sprague-Dawley rats. When the function of $G_i$ protein (inhibitory guanine nucleotide binding protein) was assessed by determining the effects of GTP on isoproterenol-stimulated adenylyl cyclase activity, the inhibitory effect of high concentrations of GTP was not observed in the presence of amiloride. In contrast, the adenosine receptor-mediated inhibition of the enzyme activity, as determined empolying 2-chloroadenosine, was either unchanged or even more enhanced by amiloride depending on the concentrations of 2-chloroadenosine. Thus, it appears that GTP- and receptor-mediated inhibitory function of $G_{i}$ proteins can be separated from one another. Receptor-mediated function of $G_{s}$ protein did not appear to be significantly affected by amiloride, since the inhibition of isoproterenol-stimulated adenylyl cyclase activity by propranolol under the same conditions was not significantly altered by amiloride. The enhancement of 2-chloroadenosine-mediated inhibition of adenylyl cyclase by amiloride was maintained in the presence of 150 mM NaCl. In summary, these results suggest that amiloride interacts both with $A_{l}$ adenosine receptors and with $G_i$ proteins in adipocytic membranes. Its binding to the $A_1$ adenosine receptors appears to facilitate the coupling of the receptors with $G_i$ proteins thereby enhancing the inhibition of isoproterenol-stimulated adenylyl cyclase activity by $A_1$ adenosine agonist, and the direct interaction with $G_i$ proteins appears to remove the GTP-dependent inhibitory effect on adenylyl cyclase activity.

• Biomolecules & Therapeutics
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• v.13 no.1
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• pp.35-40
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• 2005

This study was performed to investigate the regulatory mechanism of cerebral blood flow of adenosine A$_{2B}$ receptor agonist in the rats, and to define whether its mechanism is mediated by adenylate cyclase, guanylate cyclase and potassium channel. In pentobarbital-anesthetized, pancuronium-paralyzed and artificially ventilated male Sprague-Dawley rats, all drugs were applied topically to the cerebral cortex. Blood flow from cerebral cortex was measured using laser-Doppler flowmetry. Topical application of an adenosine A$_{2B}$ receptor agonist, 5'-N-ethylcarboxamidoadenosine (NECA; 4 umol/I) increased cerebral blood flow. This effect of NECA (4 umol/I) was not blocked by pretreatment with adenylate cyclase inhibitor, MDL-12,330 (20 umol/I). But effect of NECA (4 umol/I) was blocked by pretreatment with guanylate cyclase inhibitor, LY-83,583 (10 umol/I) and pretreatment with ATP-sensitive potassium channel inhibitor, glipizide (5 umol/I). These results suggest that adenosine A$_{2B}$ receptor increases cerebral blood flow. It seems that this action of adenosine A$_{2B}$ receptor is mediated via the activation of guanylate cyclase and ATP-sensitive potassium channel in the cerebral cortex of the rats.

• Journal of Life Science
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• v.21 no.3
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• pp.473-479
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• 2011

Adenylyl cyclase (AC) catalyzes the formation of cyclic AMP (cAMP) from ATP. The cAMP produced by AC serves as a secondary messenger in a variety of signal transduction pathways, and controls various cellular functions in many organisms. ACs can be grouped into six classes based on their primary amino acid sequences. Eukaryotes and mycobacteria contain only members of class III AC. The catalytic cyclase domains of class III AC are active as dimers: mammalian ACs, which are composed of a single polypeptide with two catalytic cyclase domains, form the active site as a result of intramolecular dimerization of the catalytic cyclase domains. In contrast, mycobacterial ACs function as homodimers, since their polypeptides contain a single catalytic cyclase domain. Six amino acids are required for the catalytic activity of class III AC - two aspartate residues, a lysine-aspartate pair and an arginine-asparagine pair. 16 ACs belonging to the class III were identified in Mycobacterium tuberculosis H37Rv, and their characteristics are reviewed.

• The Korean Journal of Physiology
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• v.8 no.2
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• pp.67-74
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• 1974

The object of this research is aimed to determine the activity of adenyl cyclase in both skeletal muscle sarcolemma and fat cell ghost of epididymal adipose tissue isolated from rats exposed to cold for various length of time in an attempt to evaluate whether the tissue sensitivity to catecholamine is increased when rats are exposed to cold for long periods of time Methods: a)Animals: Albino rats ranging in weight from 150 to 200 gm were used throughout this study. For experimental purposes, the rats are divided into two groups: experimental animals were place4 in a cold room at $4^{\circ}C$, controls being kept at $25^{\circ}C$. At the end of 2, 4, 6, 12, and 16 weeks. exposure to cold the rats were used to measure the adenyl cyclase activity. b) Isolation of plasma membrane from skeletal muscle and adipose tissue: The Plasma membrane of skeletal muscle from hind limbs of rats are prepared by the method employed by Rosenthal et at. and fat cell ghost of epididymal adipose tissue of rats by the method employed by Rodbell. c) Adenyl cyclase assay: Adenyl cyclase activity were measured by the method employed by Marinetti et al. Briefly, plasma membrane was incubated with $3^H-ATP$, various amount of noradrenaline and other incubation mixture at $37^{\circ}C$ for 20 minutes. After stopping the enzyme reaction by immersion in boiling water, carrier 3',5'-AMP was added to the system as a marker and $100\;{\mu}1$ aliquots of incubation mixture were pipetted on $20{\time}20$ Whatman No. 3 MM filter paper for one dimensional chromatography. The cyclic AMP spots were cut off and placed in counting vials containing 10ml of Bray's scintillation cocktail. Radioactivity was determined with a Packard Tri-Carb liquid scintillation counter. The enzyme activity is expressed as nanomoles of cyclic AMP produced per mg of membrane per hour. Result: 1. Average adenyl cyclase activity in the plasma membrane of skeletal muscle before and after noradrenaline administration was significantly higher in the cold-exposed rats as compared to the control. Continuous exposure to cold Produced an increased adenyl cyclase activity before and after noradrenaline administration. Adenyl cyclase activity reached peak levels at the 6 weeks exposure to told and level of adenyl cyclase activity remained high. Noradrenaline administration to the incubation medium induced a significant increase in adenyl cyclase activity and the degree of stimulation were proportional to the hormonal concentration But the rate of inclement in adenyl cyclase activity by noradreasline was the same in both groups. 2. Adenyl cyclase activity in fat cell ghost between cold exposed and control rats showed no significant differences before and after noradreualine administration. In summary, it can be concluded that cold adaptation give rise an increased activity of adenyl cyclase in plasma membrane of skeletal muscle in rats.

• The Korean Journal of Pharmacology
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• v.22 no.2
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• pp.128-134
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• 1986

To determine the relationship between hydrochlorothiazide-induced diuretic action and cyclic nucleotides, the effects of hydrochlorothiazide (5 mg/kg, i.v.) on the renal tissue level of cyclic nucleotides and the renal adenylate cyclase and guanylate cyclase activity were investigated. Hydrochlorothiazide elecitied the maximal diuretic effect between 10 and 20 min after the injection of drug. The increased urine flow and urinary electrolytes excretion returned to the control levels 60 min after the injection of drug. 5 and 15 min after drug administration the cAMP level of renal tissue was significantly decreased, but 60 min after the cAMP level was not different from the control level. The cGMP level of renal tissue was not affected by hydrocholorothiazide. Hydrochlorothiazide $(5\;{\times};10^{-4}\;M)$ inhibited the renal adenylate cyclase but not affected the renal guanylate cyclase. These results suggest that cAMP may be involved in the renal action mechanism of hydrochlorothiazide and the involvement of cGMP is uncertain.

• Biomolecules & Therapeutics
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• v.12 no.2
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• pp.68-73
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• 2004

This study was performed to investigate the regulatory mechanism of cerebral blood How of adenosine $A_2$ receptor agonist in the rats, and to define whether its mechanism is mediated by nitric oxide (NO), adenylate cyclase and guanylate cyclase. In pentobarbital-anesthetized, pancuronium-paralyzed and artificially ventilated male Sprague-Dawley rats, all drugs were applied topically to the cerebral cortex. Blood flow from cerebal cortex was measured using laser-Doppler flowmetry. Topical application of an adenosine $A_2$ receptor agonist [5'-(N-cyclopropyl)-carboxamidoadenosine (CPCA; 4 umol/l)] increased cerebral blood flow. This effect of CPCA (4 umol/l) was blocked by pretreatment with NO synthase inhibitor [$N^G$-nitro-L-argine methylester (L-NAME; 140 umol/l)] and adenylate cyclase inhibitor [MDL-12,330 (20 umol/l)]. But the effect of CPCA (4 umol/l) was not blocked by pretreatment with guanylate cyclase inhibitor [LY-83,583 (10 umol/l)]. These results suggest that adenosine $A_2$ receptor increases cerebral blood How. It seems that this action of adenosine $A_2$ receptor is mediated via the NO and the activation of adenylate cyclase in the cerebral cortex of the rats.