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Drug
Enzyme
Compound
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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The gene encoding the Epstein-Barr virus (EBV)-specific
dUTPase
was amplified from virus DNA by PCR. The active enzyme was expressed in Escherichia coli and in insect cells as a non-fusion protein. The protein from E. coli specifically converted dUTP to dUMP and did not react with other dNTPs or NTPs. Preliminary experiments yielded a Km value of about 0.8 microM for dUTP. MAbs against the
dUTPase
reacted with a protein of approximately 31 kDa in 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-stimulated B cells harbouring either type 1 or type 2 EBV. The protein was found in untreated cells at low levels, whereas induction of the lytic replication cycle by TPA treatment or by providing the immediate early transactivator BZLF1 in trans resulted in increased expression. We demonstrated that the virus
dUTPase
isolated from EBV-infected cells is a phosphoprotein. The protein expressed in insect cells was used to test for the presence of specific antibodies in sera from normal, healthy carriers and from patients with various diseases. While the sera of EBV-negative individuals (0/3) or healthy carriers (0/33) did not contain detectable levels of antibodies, patients with mononucleosis (5/18), chronic EBV infection (2/7), EBV reactivation (7/20) and
human immunodeficiency virus infection
(5/24) showed elevated antibody titres against the enzyme. This indicated that the
dUTPase
is expressed during EBV replication and reactivation. The enzyme might therefore be a potential target for drug therapy under conditions of active DNA replication.
...
PMID:Cloning and expression of the Epstein-Barr virus-encoded dUTPase: patients with acute, reactivated or chronic virus infection develop antibodies against the enzyme. 892 74
FIV is a lentivirus of domestic cats that causes a spectrum of diseases that is remarkably similar to the clinical syndrome produced by
HIV infection
in people. Both
HIV
and FIV has been shown to cause neurologic dysfunction. Specific Pathogen-Free (SPF) cats were placed into one of three groups: FIV-PPR infected; DU-FIV-PPR (a
dUTPase
mutant of the FIV-PPR clone) infected; or an age-matched control group. In both infected groups, the general clinical signs of infection included lymphadenopathy, oral ulcerations, rough hair coat, and conjuntivitis. Specific neurological changes in the FIV-PPR infected cats included hind limb paresis; delayed righting and pupillary reflexes; behavioral changes; delayed visual and auditory evoked potentials; decreased spinal and peripheral nerve conduction velocities; and marked alterations in sleep patterns. Most of these changes were also observed in the DU-FIV-PPR infected cats. However, these cats tended to have a slightly less severe disease. In this study, we have demonstrated that an infectious molecular clone of FIV closely parallels the disease course of wild type FIV-infected cats. By using a knockout gene mutant of this clone, we were able to demonstrate that the
dUTPase
gene is not essential for neuropathogenesis. Further use of the FIV-PPR clone should prove useful in determining the essential viral elements that are important in the neuropathogenesis of lentiviral infections.
...
PMID:Neurologic dysfunctions caused by a molecular clone of feline immunodeficiency virus, FIV-PPR. 897 20
The enzyme
dUTP pyrophosphatase
(
dUTPase
,
EC 3.6.1.23
) is essential for cellular DNA replication and cell viability by virtue of its role in reducing the availability of dUTP as a substrate for DNA polymerases. Several members of the onco- and lentivirus families of retroviruses encode dUTPases and mutant strains of these viruses defective in this enzyme exhibit suboptimal replication kinetics. Among the lentiviruses there exists a surprising phylogenetic discontinuity in the distribution of
dUTPase
genes: non-primate viruses (EIAV, CAEV, FIV, visna) contain such genes whereas the primate viruses (HIVs, SIVs) do not. The reason for this difference is unknown. We suggest the following explanation: (1) the nuclear and mitochondrial compartmentalization of the mammalian
dUTPase
, combined with the cytoplasmic location of ribonucleotide reductase, leads to the net synthesis of dUTP, together with dCTP, dGTP and dATP in the cytoplasm; (2) this combination of dNTPs serves as a "toxic cocktail" for viral replication by virtue of its ability to promote the synthesis of uracil-substituted DNA; (3) many viruses have adapted to this challenge by encoding dUTPases that are free of normal cellular regulatory constraints; and (4) the fortuitous expression of a
dUTPase
encoded by one or more human endogenous retroviruses (HERVs) has led to the evolutionary loss of the putative ancestral
dUTPase
gene of primate lentiviruses. Thus, we propose that efficient replication of
HIV
in humans depends upon expression of a
dUTPase
encoded by an endogenous retrovirus. If this proposal is correct, then the entry of
HIV
into target cells is necessary, but not sufficient, for replication of the virus in humans.
...
PMID:HIV and human endogenous retroviruses: an hypothesis with therapeutic implications. 910 94
The
HIV
-1 Vpr protein is a virion-associated protein which has been shown to facilitate infection of nondividing macrophages and additionally to alter cell cycle and proliferation status of the infected host cell.
HIV
-1 Vpr also was recently shown to associate with the DNA repair enzyme uracil DNA glycosylase (UDG). This association with a DNA repair enzyme is intriguing given that nonprimate lentiviruses encode a
dUTPase
, which, like UDG, minimizes the misincorporation of uracil into DNA and is important for virus replication in primary nondividing macrophages but not in dividing cells. This raises the possibility that the dependence upon Vpr for infection of nondividing macrophages may relate to its ability to interact with UDG. Members of the
HIV
-2/SIVSM group encode, in addition to Vpr, a related protein called Vpx. We previously demonstrated (Fletcher et al., 1996) that Vpx of
HIV
-2/SIVSM is necessary and sufficient for infection of primary macaque macrophages, while Vpr is not required for macrophage infection but governs cell cycle arrest. Here, we extend on these observations by demonstrating that Vpr, but not Vpx of
HIV
-2/SIVSM, associates with UDG, which suggests that Vpx facilitates infection of macrophages by a UDG-independent mechanism.
...
PMID:Differential association of uracil DNA glycosylase with SIVSM Vpr and Vpx proteins. 963 73
A coding region homologous to the sequence for essential eukaryotic enzyme
dUTPase
has been identified in different genomic regions of several viral lineages. Unlike the nonprimate lentiviruses (caprine arthritis- encephalitis virus, equine infectious anemia virus, feline immunodeficiency virus, and visna virus), where
dUTPase
is integrated into the pol coding region, this enzyme has never been demonstrated to be present in the primate lentivirus genomes (human immunodeficiency virus type 1 [
HIV
-1],
HIV
-2, or the related simian immunodeficiency virus). A novel approach allowed us to identify a weak but significant sequence similarity between
HIV
-1 gp120 and the human
dUTPase
. This finding was then extended to all of the primate lentivirus lineages. Together with the recently reported fragmentary structural similarity between the V3 loop region and the Escherichia coli
dUTPase
(P. D. Kwong, R. Wyatt, J. Robinson, R. W. Sweet, J. Sodroski, and W. A. Hendrickson, Nature 393:648-659, 1998), our results strongly suggest that an ancestral
dUTPase
gene has evolved into the present primate lentivirus CD4 and cytokine receptor interacting region of gp120.
...
PMID:"Hidden" dUTPase sequence in human immunodeficiency virus type 1 gp120. 984 82
dUTP pyrophosphatase
catalyses hydrolysis of deoxyuridine triphosphate (dUTP) to deoxyuridine monophosphate (dUMP) and inorganic pyrophosphate (PPi). Elimination of dUTP is vital since its misincorporation into DNA by DNA polymerases can initiate a damaging iterative repair and misincorporation cycle, resulting in DNA fragmentation and cell death. The anti-tumour activity of folate agonists and thymidylate synthase inhibitors is thought to rely on dUTP misincorporation. Furthermore, retroviral cDNA production may be particularly susceptible to the effects of dUTP misincorporation by virtue of the error-prone nature of reverse trans criptase. Consequently,
dUTPase
activity is an ideal point of intervention in both chemotherapy and anti-retroviral therapy. In particular, the
dUTPase
encoded by a human endogenous retrovirus (HERV-K) has been suggested to complement
HIV infection
and so is an attractive target for specific inhibition. Hence, we used site photoaffinity labelling, site-directed mutagenesis and molecular modelling to assign catalytic roles to the conserved amino acid residues in the active site of the HERV-K
dUTPase
and to identify structural differences with other
dUTPase
enzymes. We found that dUTP photoaffinity labelling was specific for a beta-hairpin motif in HERV-K
dUTPase
. Mutagenesis of aspartate residues Asp84 and 86 to asparagine within this beta-hairpin showed the carboxylate moiety of both residues was required for catalysis but not for dUTP binding. An increase in the pKa of both aspartate residues brought about by substitution of a serine residue with a glutamate residue adjacent to the aspartate residues increased activity by a factor of 1.67 at pH 8.0, implicating general base catalysis as the enzyme's catalytic mechanism. Conservative mutagenesis of Tyr87 to Phe resulted in a sevenfold reduction of
dUTPase
activity and a 3.3-fold reduction in binding activity, whilst substitution with an isoleucine residue totally abolished both catalytic activity and dUTP binding, suggesting that binding/activity is dependent on an aromatic side-chain at the base of the hairpin. Comparison of a homology-based three-dimensional model structure of HERV-K
dUTPase
with a crystallographic structure of the human
dUTPase
revealed displacement of a conserved alpha-helix in the HERV-K enzyme causing expansion of the HERV-K active site. This expansion may be responsible for the ability of the HERV-K enzyme to hydrolyse dTTP and bind the bulkier dNTPs in contrast to the majority of dUTPases which are highly specific for dUTP. Knowledge of the
dUTPase
catalytic mechanism and the distinctive topography of the HERV-K active site provides a molecular basis for the design of HERV-K
dUTPase
-specific inhibitors.
...
PMID:Structure/function analysis of a dUTPase: catalytic mechanism of a potential chemotherapeutic target. 1032 42
We have constructed a non-primate lentiviral vector system based on the equine infectious anaemia virus (EIAV). This system is able to transduce both dividing and non-dividing cells, including primary cultured hippocampal neurons and neurons and glia in the adult rat central nervous system (CNS), at efficiencies comparable with
HIV
-based vectors. We demonstrate that the only EIAV proteins required for this activity are gag/pol and that the only accessory protein required for vector production is rev. In addition, we show that the pol encoded
dUTPase
activity that is found in all non-primate lentiviruses is not required. The vectors can be pseudotyped with a range of envelopes including rabies G and MLV 4070A and can be concentrated to high titres. The ability of EIAV to infect mitotically inactive cells makes this vector an attractive alternative to the immunodeficiency viruses for gene therapy.
...
PMID:Stable gene transfer to the nervous system using a non-primate lentiviral vector. 1060 76
Many lentiviruses encode a
dUTPase
which may protect against toxic misincorporation of dUTP into cDNA during reverse transcription. However, the primate lentiviruses
HIV
and SIV do not express a
dUTPase
. Significantly, the host genomes of these lentiviruses contain a multicopy endogenous retrovirus which is absent in non-primate genomes. In humans, this endogenous retrovirus is known as HERV-K and encodes a potential
dUTPase
sequence. Previously, we have suggested that
HIV infection
is complemented by a cytosolic
dUTPase
derived from the
dUTPase
gene encoded by HERV-K. This study demonstrates expression of HERV-K
dUTPase
transcripts and protein in human cell lines using RT-PCR and western blot analysis. Immunocytochemistry showed that HERV-K
dUTPase
was predominantly located in cell cytoplasm when transiently expressed in COS-1 cells. These data provide substantiation and support for the hypothesis above and is the first documentation of expression of an enzyme of nucleotide metabolism expressed by an endogenous retrovirus.
...
PMID:Expression and cytoplasmic localisation of deoxyuridine triphosphate pyrophosphatase encoded by a human endogenous retrovirus. 1075 57
Several retroviruses, including equine infectious anemia virus (EIAV), visna virus, caprine arthritis-encephalitis virus (CAEV) and feline immunodeficiency virus (FIV) encode
dUTPase
. The role of this enzyme in the replication of these viruses has been scrutinized, with particular emphasis on potential roles for
dUTPase
in virulence and viral mutation rate. Overall, the results of these studies have indicated a central role for
dUTPase
in facilitating productive viral replication in non-dividing cells. The requirement for
dUTPase
in EIAV, which replicates exclusively in macrophages, may be the most stringent. Studies of
dUTPase
mutants of virulent EIAV clones suggest that the enzyme is a major determinant of virulence. In contrast, FIV readily replicates in dividing cell populations such as CD4+ and CD8+ T cells, and B cells as well as in non-dividing macrophages. Thus, the virus burden and disease sequelae are lowered in cats infected with a
dUTPase
-minus FIV relative to cats infected with wild type FIV, but not totally abrogated. Growth in macrophages is attenuated with the DU-minus FIV with evidence of a 5 to 8-fold increase in G-->A transition mutations in viral integrants present in macrophages. These findings are consistent with an increase in uracil misincorporation in the absence of
dUTPase
, resulting in transition mutations that cripple the virus. Effects on virus replication and disease production have also been noted for
dUTPase
-deleted CEAV and visna virus. While
HIV
and SIV do not encode
dUTPase
some reports suggest that other viral and host cell factors may substitute for its activity. Betaretroviruses also encode
dUTPase
and while several of these cause significant disease, the role of
dUTPase
in their replication and pathogenesis is currently unknown.
...
PMID:The role of retroviral dUTPases in replication and virulence. 1237 97
Uracilation of DNA represents a constant threat to the survival of many organisms including viruses. Uracil may appear in DNA either by cytosine deamination or by misincorporation of dUTP. The
HIV
-1-encoded Vif protein controls cytosine deamination by preventing the incorporation of host-derived APOBEC3G cytidine deaminase into viral particles. Here, we show that the host-derived uracil DNA glycosylase UNG2 enzyme, which is recruited into viral particles by the
HIV
-1-encoded integrase domain, is essential to the viral life cycle. We demonstrate that virion-associated UNG2 catalytic activity can be replaced by the packaging of heterologous
dUTPase
into virion, indicating that UNG2 acts to counteract dUTP misincorporation in the viral genome. Therefore,
HIV
-1 prevents incorporation of dUTP in viral cDNA by UNG2-mediated uracil excision followed by a dNTP-dependent, reverse transcriptase-mediated endonucleolytic cleavage and finally by strand-displacement polymerization. Our findings indicate that pharmacologic strategies aimed toward blocking UNG2 packaging should be explored as potential
HIV
/AIDS therapeutics.
...
PMID:HIV-1-associated uracil DNA glycosylase activity controls dUTP misincorporation in viral DNA and is essential to the HIV-1 life cycle. 1572 Dec 52
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