EC:2.7.7.7 - FACTA Search

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

Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acyclovir (Zovirax) is a qualified success as an effective and nontoxic antiviral chemotherapeutic agent and at present is approved for the treatment of initial genital herpes and limited life-threatening cutaneous herpes simplex viral infections in the immunocompromised host. Its efficacy in Epstein-Barr, varicella-zoster, and cytomegalorvirus infections appears less promising. According to one controlled study, its efficacy in the treatment of herpes labialis (HSV-1) infections has been disappointing. The highly selective action of acyclovir against viral DNA polymerase and its inhibition of viral DNA chain elongation result in a low incidence of human (host cell) toxicity, as manifested by local irritation at injection sites and a modest incidence of adverse renal effects, which can be reduced by judicious drug use. Newer antiviral agents now under development hold substantial promise for the future of antiviral chemotherapy.
...
PMID:Acyclovir and herpesvirus infections. A review of the literature. 632 78

[E]-5-(2-bromovinyl)-2'-deoxyuridine (BVdU) inhibits the replication of the baculovirus Trichoplusia ni multiple nucleocapsid nuclear polyhedrosis virus in Spodoptera frugiperda cells. Virus-specific DNA synthesis and late protein synthesis are suppressed by the drug. BVdU is phosphorylated by deoxythymidine (deoxycytidine) kinase present in both uninfected and virus-infected cells, and in its 5'-triphosphate form it inhibits DNA polymerase activity in virus-infected cells. The effect of the BVdU is not completely reversible. Phosphonoacetic acid, phosphonoformic acid and Acyclovir have no effect on baculovirus replication. Acyclovir fails to compete with deoxycytidine and thymidine as substrates for pyrimidine deoxynucleoside kinase in virus-infected and uninfected cells.
...
PMID:Baculovirus replication: inhibition of Trichoplusia ni multiple nuclear polyhedrosis virus by [E]-5-(2-bromovinyl)-2'-deoxyuridine. 634 53

Acyclovir is a new antiviral drug that acts as a specific inhibitor of herpesvirus DNA polymerase. It shows good in vitro activity against herpes simplex and varicella-zoster viruses. The drug may be administered topically to the skin, intravenously, orally, or topically to the eye (only topical and intravenous preparations are currently available). Acyclovir kinetics are described by a two-compartment open model. The drug and its metabolites are excreted by the kidney via glomerular filtration and tubular secretion. Dosage adjustment is required in patients with renal failure. Safety and tolerance studies in animals and humans have shown acyclovir to be very well tolerated. The most important adverse effect is crystalluria and elevated serum creatinine related to bolus intravenous administration. Other reported adverse effects include infusion site inflammation and rash. Topical acyclovir is effective for treating initial genital herpes and mucocutaneous herpes in the compromised host, but has not been shown to be clinically useful for recurrent labial or genital herpes. Intravenous acyclovir is effective for mucocutaneous herpes infections in the compromised host and initial genital herpes in the normal host; it is being evaluated for the treatment of herpes simplex virus encephalitis and varicella-zoster infections. An investigational oral preparation may prove to be effective therapy for both initial and recurrent genital herpes. Acyclovir therapy does not eliminate latent virus or prevent subsequent recurrences.
...
PMID:Acyclovir: mechanism of action, pharmacokinetics, safety and clinical applications. 635 82

Three patients with HBsAg-positive and DNA-polymerase-positive chronic hepatitis were treated with increasing dosages of intravenous acyclovir. A fall in DNA polymerase activity was seen with all courses of acyclovir but no dose-response relationship was evident. In only one patient did DNA polymerase fall to zero where it has remained for five months. Two out of 10 courses were associated with significant side effects with the highest dosages of acyclovir but these promptly resolved when the agent was stopped. Acyclovir's apparently partial and transient action suggests that it will not have a role in the treatment of chronic hepatitis B virus infection.
...
PMID:Preliminary studies of acyclovir in chronic hepatitis B. 710 5

The DNA polymerase of human herpes viruses, including cytomegalovirus (CMV), and the reverse transcriptase of human immunodeficiency virus (HIV) are selectively inhibited in vitro by the pyrophosphate analogue foscarnet. Inhibition is reversible on withdrawal of foscarnet and additive or synergistic effects have been demonstrated in vitro with other antiviral drugs, including ganciclovir and zidovudine. Foscarnet appears to have negligible effects on host enzymes and cells. Complete or partial clinical resolution of ocular symptoms is obtained in more than 89% of patients with acquired immunodeficiency syndrome (AIDS) and CMV retinitis during foscarnet induction therapy, but relapse occurs soon after ceasing treatment. Maintenance treatment given daily can extend the period of remission considerably. Foscarnet and ganciclovir monotherapy had similar efficacy in the treatment of CMV retinitis in patients with AIDS in several studies, and have been used concomitantly in immunocompromised patients with recalcitrant CMV infections. In 1 trial, patients receiving foscarnet survived for significantly longer than those receiving ganciclovir. Foscarnet has been used successfully in the treatment of limited numbers of immunocompromised patients with CMV-associated gastrointestinal (improvement in over 67% of patients) and other infections. Aciclovir-resistant herpes simplex infections in immunocompromised patients have also been treated successfully with foscarnet. Almost 90% of a foscarnet dose is excreted in the urine. Reversible nephrotoxicity is common during foscarnet therapy, but may be reduced by dosage adjustment and adequate hydration. Anaemia, nausea and vomiting, disturbances in electrolyte levels and genital ulceration have also been associated with administration of the drug. The different tolerability profiles of foscarnet and zidovudine facilitate the use of these agents in combination in patients with AIDS and CMV infection; whereas ganciclovir, like zidovudine, is associated with dose-limiting haematological toxicity. The apparent survival benefits seen in these patients when receiving foscarnet and zidovudine (possibly linked to synergy between zidovudine and foscarnet and/or the inherent anti-HIV activity of foscarnet), appear to offer potentially important advantages for foscarnet over ganciclovir in the treatment of selected patients with AIDS and CMV infections.
...
PMID:Foscarnet. A reappraisal of its antiviral activity, pharmacokinetic properties and therapeutic use in immunocompromised patients with viral infections. 752 25

The nucleoside analog acyclovir is remarkably effective and selective in herpes simplex virus (HSF) infections. Acyclovir inhibits the viral enzyme DNA polymerase. Emergence of acyclovir-resistant HSV mutants occurs in immunocompromised patients, especially those with AIDS. Detection of HSV strains with resistance to antiviral drugs requires rapid in vitro tests to determine the IC50, i.e., the concentration of drug which inhibits viral replication by 50%. Studies of patterns of HSV resistance to the various antiviral agents used in medicine and characterization of mutant HSV strains have shown resistance to be due to loss or modification of the viral enzyme thymidine kinase or to changes in the viral DNA polymerase. The main clinically-significant acyclovir-resistant mutants are thymidine kinase-deficient and retain sensitivity to vidarabine and foscarnet. Development of resistance to both acyclovir and foscarnet due to changes in viral DNA polymerase is considerably less common but emphasizes the urgent need for new antiviral strategies for use in immunocompromised patients.
...
PMID:[Resistance of herpes simplex viruses to antiviral drugs]. 839 60

Herpes simplex virus (HSV) infections are very common in the general population and can be treated with the nucleoside analogue acyclovir. Acyclovir is initially phosphorylated intracellularly in HSV-infected cells by a viral-specific thymidine kinase to acyclovir-monophosphate. The monophosphate is subsequently di- and triphosphorylated by host cellular kinases to the active form of the drug, which inhibits HSV DNA polymerase and incorporates into the elongating viral DNA and causes chain termination. Acyclovir resistance has been increasingly described and is caused by mutations in either the thymidine kinase or the DNA polymerase genes. These mutations result in decreased or absent HSV thymidine kinase production, altered affinity of the thymidine kinase for acyclovir-triphosphate, or altered affinity of the HSV DNA polymerase for acyclovir-triphosphate. Thymidine kinase deficiency accounts for approximately 95% of acyclovir-resistant isolates. Clinical disease due to acyclovir-resistant HSV occurs primarily in immunocompromised patients and is usually characterized by a chronic, progressive ulcerative mucocutaneous disease with prolonged shedding of virus. Several large surveys have been done in an effort to determine the incidence of in vitro and clinical acyclovir resistance. Among immunocompetent hosts, even those who have received > or = 6 years of continuous acyclovir, the prevalence of acyclovir-resistant isolates has remained stable at approximately 3%. Only three cases of clinical resistance of HSV to acyclovir have been reported. However, the incidence in immunocompromised patients, particularly those with AIDS and those who have had bone marrow transplants, is increasing. Transmission of acyclovir-resistant isolates from person to person has not been documented, but due to the increased use of acyclovir and newer drugs, such as famciclovir, there is great concern that this transmission might occur in the future. Continued surveillance in both immunocompetent and immunocompromised hosts for the development of clinical acyclovir-resistant HSV disease is necessary.
...
PMID:Herpes simplex virus resistance to acyclovir: clinical relevance. 854 89

Acyclovir is an effective drug for the treatment of HSV and VZV infections, which after phosphorylation to the triphosphate, inhibits viral DNA polymerase. Acyclovir has low oral bioavailability, therefore prodrugs have been developed, and the L-valyl ester, valaciclovir, recently has been licensed for the treatment of shingles. Ganciclovir is used against CMV, and famciclovir, a lipophilic prodrug of penciclovir, is marketed for shingles. The acyclic nucleoside phosphonates are active against thymidine kinase-resistant viral strains. Promising analogs are PMEA (in clinical trial for the treatment of AIDS) and (S)-HPMPC (good in vivo activity against HSV, VZV, CMV, and EBV). Oligonucleotides incorporating acyclic nucleosides at the 3'-and 5'-ends, or constituted of amino acyclic nucleosides, are resistant to cleavage by nucleases and may be useful in antisense and/or antigene therapy. HEPT is active against HIV-1: It binds in a hydrophic pocket on reverse transcriptase, rather than in the polymerase active site. Some acyclic nucleosides are potent inhibitors of purine and pyrimidine nucleoside phosphorylase. These compounds may have a therapeutic niche in combination therapy with antiviral and anticancer nucleosides, and in the treatment of diseases involving the T-cell.
...
PMID:Acyclic nucleosides as antiviral compounds. 873 25

Acyclovir (ACV) triphosphate and azidothymidine (AZT) triphosphate inhibit the DNA polymerase of human hepatitis B virus (HBV) by 50% at submicromolar concentrations, but no effects of ACV or AZT treatment have been noted on the clinical manifestations of hepatitis B. We synthesized 1-O-octadecyl-sn-glycero-3-phospho-acyclovir (ODG-P-ACV), 1-O-hexadecylpropanediol-3-phospho-acyclovir (HDP-P-ACV), and 1-O-octadecyl-sn-glycero-3-phospho-azidothymidine (ODG-P-AZT), and evaluated their antiviral activity in human hepatoma cells that constitutively produce HBV (2.2.15 cells). ACV and AZT up to 100 microM caused only slight inhibition of HBV replication in 2.2.15 cells. However, HDP-P-ACV and ODG-P-ACV inhibited viral replication by 50% at 0.5 and 6.8 microM, respectively. ODG-P-AZT also showed increased antiviral activity, with a 50% reduction in HBV replication at 2.1 microM. Based on the EC50, HDP-P-ACV, ODG-P-ACV, and ODG-P-AZT were > 200, > 14.7, and > 48 times more active than their free nucleosides in reducing HBV replication in 2.2.15 cells. To evaluate the biochemical basis for the increased antiviral activity, we studied the uptake and metabolism of 1-O-octadecyl-sn-glycero-3-phospho-[3H]acyclovir (ODG-P-[3H]ACV) in HepG2 cells. Cellular uptake of ODG-P-[3H]ACV was found to be substantially greater than that of [3H]ACV, and cellular levels of ACV-mono-, -di-, and -triphosphate were much higher with ODG-P-ACV. ODG-P-[3H]ACV was well absorbed orally. Based on urinary recovery of tritium after oral or parenteral administration of the radiolabeled compounds, oral absorption of ODG-P-ACV in mice was 100% versus 37% for ACV. ODG-P-ACV plasma area under the curve was more than 7-fold greater than that of ACV. Lipid prodrugs of this type may be useful orally in treating viral diseases.
...
PMID:Enhanced oral absorption and antiviral activity of 1-O-octadecyl-sn-glycero-3-phospho-acyclovir and related compounds in hepatitis B virus infection, in vitro. 925 56

Acyclovir (ACV), like many antiviral drugs, is a nucleoside analog. In vitro, ACV triphosphate inhibits herpesvirus DNA polymerase by means of binding, incorporation into primer/template, and dead-end complex formation in the presence of the next deoxynucleoside triphosphate. However, it is not known whether this mechanism operates in vivo. To address this and other questions, we analyzed eight mutant polymerases encoded by drug-resistant viruses, each altered in a region conserved among alpha-like DNA polymerases. We measured Km and kcat values for dGTP and ACV triphosphate incorporation and Ki values of ACV triphosphate for dGTP incorporation for each mutant. Certain mutants showed increased Km values for ACV triphosphate incorporation, suggesting a defect in inhibitor binding. Other mutants showed reduced kcat values for ACV triphosphate incorporation, suggesting a defect in incorporation of inhibitor into DNA, while the rest of the mutants exhibited both altered km and kcat values. In most cases, the fold increase in Ki of ACV triphosphate for dGTP incorporation relative to wild-type polymerase was similar to fold resistance conferred by the mutation in vivo; however, one mutation conferred a much greater increase in resistance than in Ki. The effects of mutations on enzyme kinetics could be explained by using a model of an alpha-like DNA polymerase active site bound to primer/template and inhibitor. The results have implications for mechanisms of action and resistance of antiviral nucleoside analogs in vivo, in particular for the importance of incorporation into DNA and for the functional roles of conserved regions of polymerases.
...
PMID:The enzymological basis for resistance of herpesvirus DNA polymerase mutants to acyclovir: relationship to the structure of alpha-like DNA polymerases. 989 53

<< Previous 1 2 3 4 5 Next >>