EC:2.7.7.7 - FACTA Search

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

The phosphorylation of arabinofuranosylthymine (araThd) has been studied both in non-infected cells and in those infected with herpes simplex virus (HSV-1, Lennette; HSV-1, IES and HSV-2, D-316). In these experiments, HSV strains were used which either contain (Lennette, TK+ and D-316 TK+) or lack (IES, TK-) the capacity to induce pyrimidine deoxyribonucleoside kinase. It was found that extracellularly administered araThd is phosphorylated to ara TTP via araTMP and araTDP in both non-infected and in HSV-infected cells. The phosphorylating capacity is more than tenfold lower in non-infected cells than in infected cells. Interestingly, cells infected with the TK- strain have a tenfold higher phosphorylating capacity than normal, uninfected cells, a fact which might indicate that host cell deoxythymidine kinase is induced during HSV infection. AraTMP is incorporated into cellular DNA but not into HSV DNA. This finding is in contrast to observations with arabinofuranosyladenine, which is incorporated into both cellular and HSV DNA. In vitro experiments with HSV-induced DNA polymerase show that araTTP strongly inhibits the enzyme activity. Therefore we conclude that the inhibition of HSV DNA polymerase by araTTP (formed intracellularly from araThd) is the explanation for the observed antiviral activity of araThd.
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PMID:Phosphorylation of arabinofuranosylthymine in non-infected and herpesvirus (TK+ and TK-)-infected cells. 22 22

The present paper reports on the induction of two cell surface markers on human lymphoid cells following herpes simplex virus (HSV) infection. While both primary and chronic infections of human lymphoid cells led to the induction of receptors for the Fc region of 7S IgG, chronic HSV infection was also characterized by the induction of surface-bound IgM. Surface and intracellular Fc receptors were detected in the human lymphoid cell line, Raji, infected with HSV types 1 and 2. Under optimal conditions with a multiplicity of infection (m.o.i.) of 50 to 100 p.f.u. per cell, this marker was inducible in only about 53% of the infected cells. Kinetic studies revealed the appearance of these receptors at around 5 h following HSV infection and they reached a plateau 16 to 18 h p.i. Interestingly, this Fc receptor expression (i.e. percentage of positive cells) was found to be similar in primary and chronically HSV-infected Raji cells. Both human leukocyte interferon and phosphonoacetic acid (PAA), an inhibitor of herpesvirus DNA polymerase activity, effectively inhibited Fc receptor synthesis during primary HSV-infection and these two agents suppressed its induction in chronically HSV-infected Raji (Raji-HSV) cells. This inhibitory or suppressive effect, particularly of PAA, suggests that this HSV-induced Fc receptor may represent a late virus function in the infected cell. Unlike primary HSV infection, about 80% of the chronically HSV-infected Raji cells were found to express surface-bound IgM. This IgM induction was suppressed by long-term interferon treatment but not with PAA-treatment. Superinfection studies of interferon and PAA-treated Raji-HSV cells indicate that only the former would develop Fc receptors suggesting a protective role of this IgM against superinfection by HSV.
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PMID:Studies on the induction of IgG-Fc receptors and synthesis of IgM in primary and chronically-infected lymphoid (Raji) cells by herpes simplex virus. 23 Feb 88

While both primary and chronic herpes simplex virus (HSV) in vitro infections of a Burkitt's lymphoma-derived cell line (Raji) were similarly characterized by the induction of IgG-Fe receptors in about 50% of cells, the persistent HSV infection of Raji cells was also accompanied by an induction of surface-bound IgM in approximately 80% of cells. This IgM induction was suppressed by treating the infected cells with interferon, but not with phosphonoacetic acid, an inhibitor of herpes virus DNA polymerase activity. The fact that only the cell population which had lost this IgM expression was superinfectable would suggest that this Ig may play a protective role (e.g. antibody activity?) against HSV.
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PMID:Interferon-sensitive expression of membrane-bound IgM on a human lymphoid B cell line persistently infected with herpes simplex virus. 31 9

Polymerase chain reaction (PCR) was prospectively performed with cerebrospinal fluid (CSF) from 51 patients whose CSF was available for analysis and was submitted for viral culture and/or herpes simplex virus (HSV) serology and 20 patients whose CSF was submitted exclusively to the Clinical Biochemistry Laboratory. Primers were used that flanked a 92 bp segment of the HSV DNA polymerase gene (35 cycles). Amplified products were electrophoresed on agarose gel, blotted onto nylon membrane, and probed with a 32P-labelled sequence internal to the primers. For nested PCR, 1 microliter of PCR product was amplified for an additional 35 cycles before electrophoresis and Southern blot analysis. Review of the clinical records revealed that 15 patients had central nervous system (CNS) infections. Specific HSV DNA sequences were detected in CSF specimens of three of the individuals [PCR(2), nested PCR(1)]. Two of these patients had disseminated HSV infection including encephalitis and one patient had aseptic meningitis. The diagnoses of the 12 patients with CNS infection who did not have HSV DNA detected in CSF included encephalitis [varicella-zoster virus (1), cytomegalovirus (1), Mycoplasma pneumoniae (1)], meningitis [Neisseria meningitidis (1), Coccidioides immitis (1), Enterovirus (1), aseptic meningitis (1)], varicella-zoster radiculitis (2), human immunodeficiency virus dementia (2), and transverse myelitis due to Epstein-Barr virus (1). Importantly, HSV DNA was also not detected in the CSF of the 36 patients who did not have CNS infection and 20 samples submitted exclusively to the Clinical Biochemistry Laboratory. Our findings demonstrate the utility of PCR as a rapid, non-invasive method for the routine laboratory diagnosis of CNS infection due to HSV.
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PMID:A prospective study of the polymerase chain reaction for detection of herpes simplex virus in cerebrospinal fluid submitted to the clinical virology laboratory. 133 47

Herpes simplex virus (HSV) resistant to acyclovir can produce persistent mucocutaneous ulcerative disease in patients with the acquired immunodeficiency syndrome (AIDS). The incidence of clinically significant acyclovir-resistant HSV disease has dramatically increased since the advent of the AIDS epidemic. The primary mechanism of acyclovir resistance is induction of viral mutants defective or deficient in thymidine kinase, the viral-encoded enzyme, which catalyzes the rate-limiting step in the triphosphorylation of acyclovir to its active form (acyclovir triphosphate). Foscarnet, a potent inhibitor of HSV DNA polymerase, does not require phosphorylation for its antiviral activity. This compound has been found to be effective in the treatment of acyclovir-resistant HSV infection by several investigators. A recently completed dose-comparative trial of foscarnet in AIDS patients with acyclovir-resistant HSV has confirmed the safety and efficacy of two doses of foscarnet (40 mg/kg every 8 or 12 hours) in the treatment of this disease, as well as providing preliminary evidence supporting the utility of foscarnet maintenance therapy in delaying recurrence of HSV lesions. Analysis of data from this trial has been complicated by the tremendous variability in lesion size at initiation of therapy, making any statistically valid comparison of treatment regimens almost impossible. A further trial in AIDS patients with acyclovir-resistant HSV infection has been designed to define better the role of foscarnet maintenance and, in light of evidence that a significant proportion of initial recurrences are due to acyclovir-sensitive HSV, to examine the potential utility of acyclovir maintenance following foscarnet induction therapy.
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PMID:Foscarnet treatment of acyclovir-resistant herpes simplex virus infection in patients with acquired immunodeficiency syndrome: preliminary results of a controlled, randomized, regimen-comparative trial. 153 Dec 85

Using as antigens fusion proteins expressed in bacteria, we have generated polyclonal antisera specific for the herpes simplex virus (HSV) type 1 DNA polymerase. A variety of immunologic, genetic, and biochemical assays were used to characterize these antisera and demonstrate their specificity for the HSV DNA polymerase. Using these antisera, measurements of the synthesis and accumulation of HSV DNA polymerase in infected Vero cells were made. Peak rates of polymerase synthesis were observed at 4 h postinfection, as much as 2 h before peak levels of polymerase mRNA accumulation. At all times examined, the HSV DNA polymerase polypeptide was found to be synthesized at a lower rate per mRNA than the viral thymidine kinase, with this difference being especially dramatic at later times. Infected-cell RNA isolated at 2 and 6 h postinfection directed the synthesis of similar amounts of polymerase polypeptide per polymerase transcript in rabbit reticulocyte lysates, indicating that polymerase transcripts are inherently as translatable at both times. An HSV mutant in which sequences including a short upstream open reading frame in the HSV DNA polymerase transcript were deleted specified polymerase mRNA whose translational efficiency was no more than marginally greater than that of the wild-type virus. These results demonstrate that polymerase expression is regulated by inefficient translation mediated by sequences other than the short upstream open reading frame and that this leads to an early shutoff of polymerase synthesis during HSV infection.
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PMID:Translational regulation of herpes simplex virus DNA polymerase. 169 12

The replication of herpes simplex virus (HSV) type 1 in macrophages grown from spleen cells of mouse strains susceptible to HSV infection in vivo was very sensitive to interferon (IFN). Different types of mouse IFN (alpha, beta, gamma) exhibited similar antiviral activities. However, treatment of cells with IFN-gamma in combination with IFN-alpha or IFN-beta resulted in a synergistic inhibition of virus growth. As shown by assaying HSV DNA polymerase, IFN inhibited expression of the beta-genes. Inhibition of enzyme induction correlated well with the reduction of viral yield. Induction of HSV DNA polymerase was delayed by IFN in a dose-dependent manner. These results show that IFN inhibits HSV replication at an early step prior to or during the synthesis of beta-proteins.
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PMID:Inhibition of replication of herpes simplex virus in mouse macrophages by interferons. 241 65

Herpes simplex virus (HSV) induces DNA amplification of target genes within the host cell chromosome. To characterize the HSV genes that mediate the amplification effect, combinations of cloned DNA fragments covering the entire HSV genome were transiently transfected into simian virus 40 (SV40)-transformed hamster cells. This led to amplification of the integrated SV40 DNA sequences to a degree comparable to that observed after transfection of intact virion DNA. Transfection of combinations of subclones and of human cytomegalovirus immediate-early promoter-driven expression constructs for individual open reading frames led to the identification of six HSV genes which together were necessary and sufficient for the induction of DNA amplification: UL30 (DNA polymerase), UL29 (major DNA-binding protein), UL5, UL8, UL42, and UL52. All of these genes encode proteins necessary for HSV DNA replication. However, an additional gene coding for an HSV origin-binding protein (UL9) was required for origin-dependent HSV DNA replication but was dispensible for SV40 DNA amplification. Our results show that a subset of HSV replication genes is sufficient for the induction of DNA amplification. This opens the possibility that HSV expresses functions sufficient for DNA amplification but separate from those responsible for lytic viral growth. HSV infection may thereby induce DNA amplification within the host cell genome without killing the host by lytic viral growth. This may lead to persistence of a cell with a new genetic phenotype, which would have implications for the pathogenicity of the virus in vivo.
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PMID:A subset of herpes simplex virus replication genes induces DNA amplification within the host cell genome. 254 92

We have investigated the induction of Fc receptor (FcR) in different types of lymphoid cell lines (LCL) infected with herpes simplex virus (HSV). Subpopulations of certain of these LCL normally express FcR unrelated to herpetic infection. Differentiation of virus-induced FcR from that related to normal cell function was therefore possible. FcR detection was carried out by means of a rosette assay using ox erythrocytes coated with 7S immunoglobulin G (EA rosettes). Both HSV types 1 and 2 were found to induce FcR in B, T, and "null" (i.e., non-B, non-T) type LCL; however, in all the LCL tested, this HSV-induced FcR expression appeared to be more restricted in the responding T LCL than in responding B and null type LCL. In addition, kinetic experiments revealed that the time course of HSV-induced FcR expression differed among these LCL types tested. Interestingly, a number of LCL were resistant to HSV infection or restricted HSV gene expression, including expression of the viral products responsible for FcR induction. In all the responding HSV-infected LCL, induction of FcR always paralleled the expression of HSV antigens. Synthesis of HSV-induced FcR was shown to be inhibited by phosphonoacetic acid, an inhibitor of herpesvirus DNA polymerase activity, whereas FcR of non-HSV origin was found to be resistant to inhibitor. This would infer that HSV codes for an FcR which can be differentiated from that of cellular origin by using phosphonoacetic acid. Therefore, two different mechanisms of FcR synthesis may be suggested, one virus mediated and the second probably under cellular control. In addition, the data obtained using Epstein-Barr virus producer as well as isogeneic monoclonal cell lines, with and without the Epstein-Barr virus genome, indicated that the resident Epstein-Barr virus genome in the target cell did not have a detectable effect in the induction of FcR by HSV.
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PMID:Herpesvirus-lymphoid cell interactions: comparative studies on the biology of herpes simplex virus-induced Fc receptors in B, T, and "null" lymphoid cell lines. 624 24

Positive diagnosis of Herpes simplex virus (HSV) encephalitis was rarely obtained in the past, when brain biopsy had been performed. Other tests (HSV antigen and HSV antibodies detection and interferon alpha measurement, in cerebrospinal fluid) failed to prove HSV infection. Polymerase chain reaction has been proposed for accurate and rapid diagnosis of HSV encephalitis. With 35 cycles of a DNA polymerase sequence duplication, sensitivity reaches 95% and specificity 100%. HSV PCR is a useful tool for the diagnosis of acute encephalitis. This should be available in many neurologic clinics. Therapeutic consequences include rapid disruption of aciclovir when clinical features, MRI study and negative PCR suggest non herpetic encephalitis.
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PMID:[Value of gene amplification of herpesviruses in the diagnosis and treatment of acute viral encephalitis]. 767 39

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