EC:2.7.1.21 - FACTA Search

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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)

Murine cytomegalovirus (MCMV) neither induces a viral thymidine kinase (TK) nor enhances the activity of a cellular TK. Nevertheless, MCMV is highly susceptible to 9-(2-hydroxyethoxymethyl)guanine (acyclovir, ACV). The cellular TK is neither responsible for phosphorylation of ACV nor its anti-MCMV activity. This is clear from the findings that little ACV triphosphate is formed in MCMV-infected mouse embryo fibroblasts (MEF) and that the replication of MCMV is inhibited equally well by ACV in TK+ and TK- cells. Even if trace amounts of ACV triphosphate would be formed by enzymes other than TK, and ACV triphosphate would be responsible for the anti-MCMV activity of ACV, then the MCMV DNA polymerase ought to be highly sensitive to ACV triphosphate. To examine this possibility, the MCMV DNA polymerase was partially purified and characterized. The apparent Ki value of the MCMV DNA polymerase for ACV triphosphate indicates that the sensitivity of the MCMV DNA polymerase to ACV triphosphate is equivalent to that of the HSV DNA polymerase. Therefore, the trace amounts of ACV triphosphate that are formed in MCMV-infected MEF seem to be insufficient to inhibit MCMV DNA polymerase and may not play a key role in the anti-MCMV activity of ACV.
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PMID:Murine cytomegalovirus DNA polymerase: purification, characterization and role in the antiviral activity of acyclovir. 131 May 80

9-(2-hydroxyethoxymethyl)guanine (acyclovir, ACV) and novel nucleosides, 9-(2-deoxy-2-hydroxymethyl-beta-D-erythro-oxetanocyl)guanine (oxetanocin-G, OXT-G) and (+)-9-[(1R, 2R, 3S)-2, 3-bis(hydroxymethyl)cyclobutyl]guanine (carbocyclic oxetanocin-G, carbocyclic OXT-G) possessed substantial antiviral activities against herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2). ACV inhibited only viral thymidine kinase positive (TK+) herpes viruses, although the latter two compounds inhibited the replications of the TK deficient (TK-) mutants of HSV-1 and HSV-2 as well as the TK+ parent strains in vitro. The TK- mutants of HSV-1 and HSV-2 (HSV-1 TK- and HSV-2 TK-) were as susceptible to OXT-G as the TK parent strains. However, the TK- mutants were less susceptible to carbocyclic OXT-G than the TK+ parent strains. We demonstrated synergistic inhibition of the replications of HSV-1 and HSV-2 by ACV and OXT-G in combination, additive inhibition of HSV-1 and HSV-2 by ACV and carbocyclic OXT-G in combination, synergistic inhibition of HSV-1 by OXT-G and carbocyclic OXT-G in combination, and additive inhibition of HSV-2 by these two compounds. We investigated the metabolism of ACV and OXT-G in HSV-1 TK(+)-, HSV-1 TK(-)- and mock-infected Vero cells by thin layer chromatography. ACV-triphosphate increased more in HSV-1 TK(+)-infected Vero cells than in HSV-1 TK(-)- and mock-infected Vero cells. The metabolism of OXT-G had almost the same pattern in HSV-1 TK(+)-, HSV-1 TK(-)- and mock-infected Vero cells. These results suggest that ACV is phosphorylated by virus-induced TK, and OXT-G is phosphorylated by cellular nucleoside and nucleotide kinases.
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PMID:Effects of acyclovir, oxetanocin-G, and carbocyclic oxetanocin-G in combinations on the replications of herpes simplex virus type 1 and type 2 in Vero cells. 133 51

The acquisition of drug resistance in vivo was investigated by 7 serial passages (from P0 to P7) of herpes simplex virus (HSV-1) in rabbit cornea treated with either IUdR (idoxuridine), IDC (idoxycytidine), ACV (acyclovir), TFT (trifluridine), or Ara A (adenine arabinoside). Therapeutic failure was acquired gradually: at P3 for IUdR, at P4 for ACV and at P5 for TFT. At P7, viral thymidine kinase (TK) activity was reduced to 5.6% of the parental strain for IUdR, to 7.5% for ACV and to 4.6% for TFT treatment. No signs of clinical unresponsiveness occurred with IDC or Ara A. The in vitro determination of antiviral drug sensitivity performed by the dye-uptake assay on HSV isolates at each passage showed a correlation between the increase in the 50% effective dose (ED50) and the increase of ulcer area grade at each passage under antiviral drug (p less than 0.1). Both IUdR- and TFT-resistant HSV1 developed cross-resistances to TK dependent drugs. However ACV-resistant HSV1 did not show cross-resistance to other antiviral TK dependent drugs. The acquisition of the cross-resistances is discussed, and the practical implications in case of therapeutic failures are suggested.
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PMID:Emergence of cross-resistant herpes simplex virus following topical drug therapy in rabbit keratitis. 165 Jun 63

The acyclic nucleotide analogue (S)-1-[3-hydroxy-2-(phosphonylmethoxy)propyl] cytosine (2, HPMPC) was prepared on a multigram scale in 18% overall yield starting from (R)-2,3-O-isopropylideneglycerol. The key step in the nine-step synthetic route is coupling of cytosine with the side-chain derivative 8 which bears a protected phosphonylmethyl ether group. In vitro data showed that HPMPC has good activity against herpes simplex virus types 1 and 2, although it was 10-fold less potent than acyclovir [AVC, 9-[(2-hydroxyethoxy)methyl]guanine]. By comparison, HPMPC exhibited greater activity than ACV against a thymidine kinase deficient strain of HSV 1 and was more potent than ganciclovir [DHPG, 9-[(1,3-dihydroxy-2-propoxy)methyl]guanine] against human cytomegalovirus. In vivo, HPMPC showed exceptional potency against HSV 1 systemic infection in mice, having an ED50 of 0.1 mg/kg per day (ip) compared with 50 mg/kg per day for ACV. HPMPC was also more efficacious than ACV in the topical treatment of HSV 1 induced cutaneous lesions in guinea pigs.
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PMID:Synthesis and antiviral activity of the nucleotide analogue (S)-1-[3-hydroxy-2-(phosphonylmethoxy)propyl]cytosine. 254 23

Acyclovir (9-/2-hydroxyethoxymethyl/guanine) enhanced the plaque formation of HSV and VZV at subinhibitory dose and inhibited at higher concentration but not in thymidine kinase deficient viruses. The enhancement was neutralized by thymidine. Induction of viral thymidine kinase activity was not affected with ACV. These results suggest that the enhancement may be mediated by viral thymidine kinase.
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PMID:Enhancement of plaque formation of herpes simplex virus (HSV) and varicella-zoster virus (VZV) by subinhibitory dose of acyclovir (ACV). 257 98

To identify the nucleotide changes that occur in drug-induced thymidine kinase (TK) mutants of herpes simplex virus type 2 (HSV-2), we compared the nucleotide sequences of the tk genes of two mutant HSV-2 clones isolated from a patient who had been treated with acyclovir [9-(2-hydroxyethoxymethyl)guanine; ACV] with the nucleotide sequence of the parental TK+ HSV-2(8703) strain isolated from the same patient. One of the mutants, TK-altered (TKA) HSV-2(9637), was ACV resistant but induced the incorporation of [14C]thymidine into the DNA of infected rabbit skin cells. The nucleotide sequence of the tk gene of mutant TKA HSV-2(9637) had a single change (G to A) at nucleotide 668, which would cause an arginine-to-histidine substitution at amino acid residue 223 of the TK polypeptide. The second ACV-resistant mutant, TK- HSV-2(8710), did not induce detectable incorporation of [14C]thymidine into the DNA of infected rabbit skin cells. This mutant exhibited a deletion of a single base at nucleotide 217 of its nucleotide sequence. This deletion would cause a frameshift mutation at amino acid residue 73 and chain termination at amino acid residue 86 of the TK polypeptide. The nucleotide sequence of TK+ HSV-2(8703) was the same as that of the laboratory strain, TK+ HSV-2(333). The nucleotide sequence of a bromodeoxyuridine-resistant TK- HSV-2(333) mutant of TK+ HSV-2(333) also exhibited a single-base deletion, but at nucleotide 439. This deletion would cause a frameshift mutation at amino acid residue 147 and chain termination at amino acid residue 182. The frameshift mutations of TK- HSV(8710) and TK- HSV-2(333), respectively, occurred in sequences in which C was repeated three times and G was repeated seven times. The results raise the possibility that TK- frameshift mutations of HSV-2 may be common.
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PMID:Nucleotide sequence changes in thymidine kinase gene of herpes simplex virus type 2 clones from an isolate of a patient treated with acyclovir. 282 9

In this paper we report on the preliminary characterization of a mutant of herpes simplex virus type 1 (HSV-1) selected for acycloguanosine (acyclovir, ACV) resistance in vitro. The ACVr virus was examined for a series of parameters that include chemosensitivity assay, thymidine kinase (TK) activity, in vitro and in vivo growth, and mutation mapping. The data obtained indicate that a mutated TK gene is responsible for the ACVr phenotype. A distinctive feature of this mutant is the high level of resistance exhibited to ACV (100 microM) and the concomitant presence of a functional TK activity. Such a property makes this virus useful as a model for the study of viral resistance to nucleoside-type analogues in HSV.
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PMID:Preliminary characterization of a mutant of herpes simplex virus type 1 selected for acycloguanosine resistance in vitro. 283 23

Several 5-methoxymethyldeoxyuridine (MMdU)-resistant mutants of herpes simplex virus type 1 (HSV1) were classified by measuring their sensitivities to the deoxythymidine kinase (dTK)-dependent antiviral drugs 9-(2-hydroxyethoxymethyl)-guanine (acyclovir, ACV), 1-beta-D-arabinofuranosylthymine (araT), and E-(2)-5-bromovinyldeoxyuridine (BVdU) and to the dTK-independent antiviral drug phosphonoacetate (PAA). Compared to wild-type (WT) virus, all five of the dTK- mutants were highly resistant (greater than or equal to 500-fold) to BVdU and MMdU, moderately resistant to ACV (50- to 100-fold) and araT (10- to 20-fold), but not resistant to PAA. The dTK of the mutant MMdUr-20 (dTK+) appeared to phosphorylate dTMP less well than that of the WT virus, while its affinity for deoxythymidine was not altered. Two other drug-resistant HSV mutants-S1 (isolated against ACV) and B3 (isolated against BVdU)--also showed reduced phosphorylation of dTMP. This suggests that alterations in both dTK and thymidylate kinase activities may determine sensitivity to antiviral drugs.
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PMID:HSV1-specific thymidylate kinase activity in infected cells. 299 73

A rapid and sensitive colorimetric assay has been developed to evaluate the sensitivity of herpes simplex viruses (HSV) to antiviral agents. The chessboard titration of viruses and antiviral drugs and the automatic reading and analysis of the data allows objective and accurate results to be rapidly obtained. Virus sensitivity was expressed as an ED50 value which was the concentration of drug (micrograms/ml) reducing viral cpe by 50%. The ED50 values of antiviral drugs [acetylguanosine (ACV), idoxuridine (IDU), deoxycytidine (IDC) and bromovinyl deoxyuridine] for several HSV reference strains were determined and the method was then applied to clinical specimens. The selection of ACV and IDU resistant mutants was performed on a cloned sensitive HSV 1 ocular strain. We observed cross-resistance between ACV and IDU for the mutants isolated. The resistance to thymidine-kinase-dependent antiviral agents varied in inverse ratio to the thymidine kinase activity induced by HSV strains.
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PMID:A rapid and automated colorimetric assay for evaluating the sensitivity of herpes simplex strains to antiviral drugs. 302 58

The acyclovir resistant mutant of varicella-zoster virus ACV-R (A 8) induced the same level of thymidine kinase activity in infected cells as the parent Kawaguchi strain. However, it induced less deoxycytidine kinase activity and did not induce phosphorylating activity for the nucleotide analogue, 9-(2 hydroxy-ethoxymethyl)-guanine-(acyclovir). Another acyclovir resistant mutant, ACV-R (A 4), which is cross-resistant to phosphonoacetate and is thought to be a viral DNA polymerase mutant, induced the same level of phosphorylating activities for thymidine, deoxycytidine and acyclovir as the parent strain. The altered substrate specificity of thymidine kinase induced by ACV-R (A 8) is concluded to confer resistance to acyclovir on ACV-R (A 8).
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PMID:Thymidine kinase with altered substrate specificity of acyclovir resistant varicella-zoster virus. 302 11

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