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: EC:2.7.1.21 (thymidine kinase)
7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exponentially growing human lymphoblasts (culture LS-2) were separated by cell sorting (FACS II, Becton Dickinson) according to their deoxyribonucleic acid (DNA) content, designating them at particular phases of the cell cycle. Prior to cell sorting the DNA has been fluorochrome-labeled with the Hoechst stain H 33342. Maximum cell enrichments of 94% for G0 + G1 cells, 96% for S cells and 74% for G2 + M cells could be achieved. The enzyme activities of thymidine kinase (TK), thymidylate synthase (TS), DNA polymerase (DNA-P), dihydrofolate reductase (FH2-R), methionine synthase (MS), and hexokinase (HK) were determined in the obtained cell fractions. Although incorporation of 3H-thymidine (3H-dTR) and the 3H-dTR labeling index were significantly inhibited by the dye, no evidence of cell staining's having a significant effect on the enzyme activities was found. The enzyme activities for approximately 100% pure G0 + G1, S, and G2 + M cells were computed. With exception of TK, all the enzymes under study were shown to exhibit activities--although of differing degree--in the G0 + G1, S, and G2 + M cells. No TK activity was shown in G0 and G1 cells; its activity, however, was approximately the same in S and G2 + M cells. This applies likewise for TS which, in contrast to TK, exhibits minor activity in G0 + G1 cells. DNA-P was highly active in G0 + G1 cells, but maximum activity was in S cells. FH2-R exhibited maximum activity in S cells, although the difference in activity between S and G2 + M cells was not significant. None of the observed differences in MS activity was significant, indicating equally high activity in cells of all cell cycle phases. HK activity is approximately twice as high in G2 + M cells as in G0 + G1 cells.
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PMID:Relation between cell cycle stage and the activity of DNA-synthesizing enzymes in cultured human lymphoblasts: investigations on cells separated according to DNA content by way of a cell sorter. 271 50

Treatment of HSV-infected cells with 5-10 mM beta-hydroxynorvaline (Hnv), a threonine analog, specifically affects herpesvirus DNA replication: both the rate of and total DNA synthesis are reduced, the former approximately 15-fold by Hnv (6 h post-infection) and the latter by 12-fold (between 3 and 12 h post-infection). The effect on DNA replication was due to inhibition of HSV-1 thymidine kinase (TK) and DNA polymerase (DP) activities; the former is reduced by 75% and whereas DP returns to baseline levels (when compared to untreated and/or uninfected cells). Host cell TK and DP activities are unaffected. It is suggested that beta-hydroxynorvaline is incorporated into these enzyme(s), either close to or at the active site thus perturbing viral DNA synthesis. beta-Hydroxynorvaline should have unique utility as a targeted antiviral compound, acting on both membrane-mediated phenomena (fusion, penetration and attachment) and DNA replication.
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PMID:Inhibition of herpesvirus-induced thymidine kinase and DNA polymerase by beta-hydroxynorvaline. 282 76

Buciclovir is an example of an antiherpes, acyclic guanosine analog activated by the viral thymidine kinase and inhibiting viral DNA synthesis in infected cells. An investigation of closely related buciclovir-analogs with similar antiherpes activities in cell cultures and similar, or identical, modes of action but with disparate effects in vivo, revealed the following critical determinants of antiherpes efficacy. (1) The accumulation of guanosine analog-triphosphates in infected cells, which is cell-type-specific and analog-dependent. (2) The potencies of the triphosphates as inhibitors of the viral DNA polymerase. (3) The plasma kinetics of the analogs, which are widely different despite the similar structures. (4) The penetration into nervous tissue relative to penetration into non-nervous tissues, of importance in connection with the neurotropic behavior of the virus. (5) The concentration of the antagonist thymidine in certain tissues. (6) The difference in pathogenesis between primary infections and recurrent infections, exemplified in the different efficacies of topically applied drugs in cutaneous and genital HSV-2 infections in guinea pigs.
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PMID:Critical determinants of antiherpes efficacy of buciclovir and related acyclic guanosine analogs. 282 2

First generation progeny herpes simplex type 1 (HSV-1) virions grown in the presence of 5-iodo-2'-deoxyuridine (IdUrd) were irradiated with either 254 or 302 nm ultraviolet (u.v.) light. The kinetics of virus inactivation revealed decreased sensitivity of IdUrd-substituted virions to irradiation with 302 nm light under all conditions examined, and with 254 nm u.v. light when substituted and control virions were irradiated at equal particle concentrations. Comparison of virus survival after irradiation measured in Vero or Xeroderma Pigmentosum (complementation group A) cells indicated that cellular repair of ultraviolet-induced lesions was not a significant factor in the observed decrease in u.v. sensitivity. IdUrd substitution altered neither the formation of ultraviolet-induced thymidine photoproducts nor the ability of irradiated virions to express delayed early viral enzymes (thymidine kinase, DNA polymerase). It is suggested that nucleocapsid proteins or the highly ordered structure of IdUrd-substituted virions play a key role in u.v. desensitization, either by the formation of non-lethal photoproducts or by the prevention of the formation of DNA-uracilyl free radicals.
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PMID:Effect of incorporation of 5-iodo-2'-deoxyuridine into HSV-1 DNA on virion sensitivity to ultraviolet light. 282 22

The acyclovir-induced herpes simplex virus Type 1 (HSV-1) strain, R9C2, a double mutant in thymidine kinase (TK) and DNA polymerase (DNA pol), and its parental strain SC16 were compared for their effects on ocular pathology and systemic immunity after unilateral inoculation into the anterior chamber (AC) of BALB/c mouse eyes. Although AC-injected R9C2 produced no retinal necrosis (0/18 eyes), this mutant induced active suppression (33-87%) of anti-HSV delayed type hypersensitivity similar to that induced by another HSV strain, KOS. AC-injected parental strain, SC16, caused fatal disease within 7-10 days, and induced bilateral retinal necrosis and suppression of DTH in 100% of the mice. Preimmunization with R9C2 protected mice in a dose-dependent fashion from the pathologic and lethal effects of AC-injected parental virus. These data suggest that the immunogenicity of the TK and DNA pol double mutant remains intact despite the decreased ocular and systemic pathogenicity observed after intracameral inoculation.
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PMID:Immunogenicity versus pathogenicity after anterior chamber inoculation of an acyclovir-induced double mutant of HSV-1. 282 59

The genome of herpes simplex virus codes for several enzymes, including viral thymidine kinase and viral deoxyribonucleic acid (DNA) polymerase. When viral resistance develops, it does so by changes in these two enzymes. Three possible mechanisms of viral resistance to acyclovir include (1) selection of viral mutants that make little or no thymidine kinase and do not phosphorylate acyclovir adequately, (2) selection of mutants that can phosphorylate thymidine but cannot phosphorylate acyclovir (i.e., these viruses have thymidine kinases with altered substrate specificity), and (3) selection of viruses that have altered DNA polymerases that replicate viral DNA in the presence of acyclovir triphosphate. Thymidine kinase-deficient virus has been isolated from clinical isolates frequently, but few strains appear to be virulent for animals or humans and only a few seem to have caused clinical disease. Viruses with altered substrate specificity have been reported but viruses with an altered DNA polymerase have not occurred in clinical practice. Antiviral drugs should be used only when necessary to minimize the appearance of resistant strains of virus.
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PMID:Significance of resistance of herpes simplex virus to acyclovir. 282 41

The effect of nucleoside-5-triphosphates analogues on the DNA polymerase of herpes simplex virus (HSV) has been investigated. Evidence is obtained that 3-amino-2,3-dideoxythymidine triphosphate selectively inhibits the DNA synthesis, catalyzed by HSV DNA polymerase. 3-amino-2,3-dideoxythymidine exhibits antiherpetic effect in single cells cultures. It may be phosphorylated by cellular thymidine kinase. The nuclei of Vero cells infected by HSV are an adequate system for antiherpetic compounds screening.
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PMID:[Inhibitory effect of various analogs of nucleoside-5'-triphosphates on DNA synthesis catalyzed by DNA polymerase from herpes simplex virus type I]. 282 34

We have mapped the termini and determined the relative abundance and ribosome density of the major cytoplasmic transcript of the DNA polymerase (pol) gene of herpes simplex virus type 1. Nuclease protection and primer extension analyses located the 5' end of the major pol transcript at two closely spaced sites 51 and 57 nucleotides to the left of a BamHI site at map position 0.413. S1-sensitive sites corresponding to additional minor transcripts were found to map further upstream within a palindromic sequence that contains a viral replication origin. The major 3' end was found to map 90 nucleotides upstream of a KpnI site at map position 0.439. Quantitative S1 nuclease assays revealed that pol transcripts were nearly as abundant as transcripts encoded by the viral thymidine kinase gene. However, relatively few pol transcripts were found on large polysomes at 5.5 h after infection, when pol transcripts were most abundant. This was in marked contrast to the polyribosome distribution of transcripts from the thymidine kinase gene and the major DNA-binding protein gene. These results and sequence features of the pol transcript suggest that pol expression is regulated, in part, at the level of translation.
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PMID:Analysis of the transcript of the herpes simplex virus DNA polymerase gene provides evidence that polymerase expression is inefficient at the level of translation. 283 6

A series of analogues of acyclovir and ganciclovir were prepared in which conformational constraints were imposed by incorporation of a cyclopropane ring or unsaturation into the side chain. In addition, several related base-modified compounds were synthesized. These acyclonucleosides were evaluated for enzymatic phosphorylation and DNA polymerase inhibition in a staggered assay and for inhibitory activity against herpes simplex virus types 1 and 2 in vitro. Certain of the guanine or 8-azaguanine derivatives were good substrates for the viral thymidine kinase and were further converted to triphosphate, but none was a potent inhibitor of the viral DNA polymerase. Nevertheless, one member of this group, (+/-)-9-[[(Z)-2-(hydroxymethyl)cyclopropyl]methyl]guanine (3a), displayed significant antiherpetic activity in vitro, superior to that of the corresponding cis olefin 4a. Another group, typified by (+/-)-9-[[(E)-2-(hydroxymethyl)cyclopropyl]methyl]adenine (17b), possessed modest antiviral activity despite an apparent inability to be enzymatically phosphorylated. The relationship of side-chain conformation and flexibility to biological activity in this series is discussed.
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PMID:Synthesis and antiherpetic activity of (+/-)-9-[[(Z)-2-(hydroxymethyl)cyclopropyl]methyl]guanine and related compounds. 284 25

(R,S)-9-(3-hydroxy-2-phosphonomethoxypropyl)guanine [(R,S)-HPMPG] exhibits broad spectrum antiviral activity with an ED50 of less than 1 microM against herpes simplex virus (HSV) types 1 and 2, varicella zoster virus, human cytomegalovirus (HCMV) and vaccinia in plaque reduction assays. Wild type HSV-2 and its thymidine kinase deficient variant are equally sensitive to (R,S)-HPMPG. (R,S)-HPMPG is 100-fold more potent than acyclovir (ED50 = 0.45 microM vs. 44 microM, respectively) against HCMV in cell culture, and 10-fold more active than acyclovir in extending survival time in mice intraperitoneally infected with 70 LD50 HSV-1. However, (R,S)-HPMPG is toxic when administered repeatedly at 44 mg/kg/day in uninfected adult mice. The diphosphoryl derivative of HPMPG was enzymatically synthesized and is a competitive inhibitor of HSV-1 DNA polymerase relative to dGTP (K1 = 0.03 microM). HPMPG-PP is 70-fold less active at inhibiting HeLa DNA polymerase alpha than HSV-1 DNA polymerase. At concentrations between 0.3 and 1.5 microM (R,S)-HPMPG inhibited HSV-1 DNA replication greater than or equal to 50% in infected cells as measured by nucleic acid hybridization. Consistent with inhibition of viral DNA synthesis, 6 to 30 microM (R,S)-HPMPG reduces late viral polypeptide synthesis in HSV-1 infected cells. These data indicate that (R,S)-HPMPG is a thymidine kinase independent broad spectrum antiviral drug which is capable of inhibiting viral DNA polymerase.
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PMID:Broad-spectrum antiviral activity of the acyclic guanosine phosphonate (R,S)-HPMPG. 285 86


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