Guanosine monophosphate, effect

The antiviral mechanism of action of acyclovir has been reviewed (72). Acyclovir is converted to the monophosphate in herpes vims-infected cells (but only to a limited extent in uninfected cells) by viral-induced thymidine kinase. It is then further phosphorylated by host cell guanosine monophosphate (GMP) kinase to acyclovir diphosphate [66341 -17-1], which in turn is phosphorylated to the triphosphate by unidentified cellular en2ymes. Acyclovir triphosphate [66341 -18-2] inhibits HSV-1 viral DNA polymerase but not cellular DNA polymerase. As a result, acyclovir is 300 to 3000 times more toxic to herpes vimses in an HSV-infected cell than to the cell itself. Studies have shown that a once-daily dose of acyclovir is effective in prevention of recurrent HSV-2 genital herpes (1). HCMV, on the other hand, is relatively uninhibited by acyclovir. 

Dipyridamole exerts its effect by inhibition of platelet phosphodiesterase E5, increasing cyclic guanosine monophosphate and cyclic adenosine monophosphate (cAMP). By inhibiting its uptake and metabolism by erythrocytes, dipyridamole also increases the availability of adenosine within blood vessels, promoting inhibition of platelet aggregation and local vasodilatation. " Dipyridamole may also inhibit cAMP phosphodiesterase in platelets, which further increases cAMP levels and may enhance endothelial nitric oxide production, contributing to its antithrombotic effect. Existing trials of dipyridamole in stroke have focused on secondary prevention and will be discussed briefly. 

The effect of receptor stimulation is thus to catalyze a reaction cycle. This leads to considerable amplification of the initial signal. For example, in the process of visual excitation, the photoisomerization of one rhodopsin molecule leads to the activation of approximately 500 to 1000 transdudn (Gt) molecules, each of which in turn catalyzes the hydrolysis of many hundreds of cyclic guanosine monophosphate (cGMP) molecules by phosphodiesterase. Amplification in the adenylate cyclase cascade is less but still substantial each ligand-bound P-adrenoceptor activates approximately 10 to 20 Gs molecules, each of which in turn catalyzes the production of hundreds of cyclic adenosine monophosphate (cAMP) molecules by adenylate cyclase. 

Ribavirin can inhibit the replication of both RNA and DNA viruses. It is a nucleoside analog which blocks guanosine monophosphate by inhibiting the enzyme inosine monodehydrogenase. Its main indication is severe respiratory syncytial virus infections in infants but it has also shown activity against influenza A and influenza B infections. It is administered by aerosol spray. No serious adverse effects occur when used as aerosol. 

Mechanism of Action A nitrate that stimulates intracellular cyclic guanosine monophosphate. Therapeutic Effect Relaxes vascular smooth muscle of both arterial and venous vasculature. Decreases preload and afterload. 

Mechanism of Action An erectile dysfunction agent that inhibits phosphodiesterase type 5, the enzyme responsible for degrading cyclic guanosine monophosphate (cGMP) in the corpus cavernosum of the penis and pulmonary vascular smooth muscle, resulting in smooth muscle relaxation and increased blood flow. Therapeutic Effects Facilitates an erection, produces pulmonary vasodilation. 

Sildenafil It is orally active selective inhibitor of phosphodiesterase type 5 useful in treatment of erectile dysfunction. It results in reduced breakdown of cyclic guanosine monophosphate (cGMP) which is responsible for nitric acid (NO) mediated vasodilatation in corpora cavernosa. Thus inducing an erectile response to sexual stimulation. It has no direct relaxant effect on smooth muscle of corpus cavernosa and has no effect in absence of sexual stimulation. 

B) The pattern of hydroxylation in B-rings is very important for the activity, (i) The absence or the methylation of the hydroxyl group in position 3 accounts for a lower vasodilator potency. In contrast, the lack of the 3 -hidroxyl group is related with a potentiation of the effects in the presence of sodium nitroprusside suggesting a reduced inhibitory effect on cyclic guanosine monophosphate (cGMP) PDE activity, (ii) Morin, with a... 

Hie ordering effect of alkali metal cations on nucleotides is shown by NMR studies on 5 -guanosine monophosphate. The dilithium and dicesium salts do not give a structured complex, while K2(5 -GMP), Na2(5 -GMP) and Rb2(5 -GMP) all appear to have different ordered structures. The structure of the K+ salt survives at higher temperatures showing it to be more stable.102,103... 

Sildenafil increases the release of nitric oxide and increases the levels of cyclic guanosine monophosphate (cGMP), a smooth muscle relaxant. Sildenafil enhances the effects of nitric oxide by inhibiting phosphodiesterase 5, an enzyme found primarily in the penis that degrades cGMP. As a result, increased levels of cGMP in the corpus cavemosum enhance smooth muscle relaxation, the inflow of blood, and erection. Sildenafil has no effect in the absence of sexual stimulation (see Figure 60.1). 

Atropine is the classic anticholinergic bronchodila-tor. It antagonizes acetylcholine, resulting in reduced intracellular cyclic guanosine monophosphate (cGMP) and smooth muscle relaxation. In horses, the therapeutic index of atropine is narrow and the duration of action is short (0.5-2.0 h). Adverse systemic effects associated with parenteral atropine administration include mydriasis, ileus, dry mucous membranes, blurred vision, excitement and tachycardia. Atropine is not suitable for routine administration to horses with recurrent airway obstruction. 

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