UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antibodies to human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) are found in the serum of the majority of infected individuals, and inhibition of RT polymerase activity by HIV-1-positive sera can be demonstrated in vitro. The binding sites of human antibodies on the protein have not yet been identified. We synthesized overlapping peptides covering the entire RT protein of HIV-1 and used them in an enzyme-linked immunosorbent assay system to map the reactivities of HIV-1 and HIV-2 antibody-positive sera. Two highly antigenic regions were identified by both HIV serotypes. One region was found in the central part of the RT protein (amino acids 261 to 280) and another was found at the carboxy terminus in the RNase H portion of RT (amino acids 517 to 536). Comparison of the serological results with the crystal structure of the RT revealed that the antigenic region in the RNase H portion is located at the surface of the protein. The other antibody-binding site (amino acids 261 to 280) was located in the "thumb" region of the polymerase domain of RT. Polyclonal antibodies to either of the antibody-binding sites do not affect the polymerase activity of the RT protein.
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PMID:Two highly antigenic sites in the human immunodeficiency virus type 1 reverse transcriptase. 768 39

We produced a series of monoclonal antibodies against the human immunodeficiency virus (HIV-1) reverse transcriptase by immunizing mice with either purified recombinant HIV-1 p66 protein or with recombinant vaccinia virus which expresses HIV-1 pol sequences. The antibodies generated were specific for the reverse transcriptase protein, and recognized only the p51 and p66 subunits of the enzyme in each of the HIV-1 viral lysates and lysates of HIV-1 infected cells. The antibodies did not cross-react with HIV-2 reverse transcriptase. Most important, several of the antibodies are unique, in that they are the first that can bind to sites close to the N-terminal. This latter region has been suggested to form part of the polymerase domain of the reverse transcriptase. None of the antibodies could neutralize either the RNA-dependent DNA polymerase or RNase H activities of either p66 or p51/66 proteins. The binding patterns of these various antibodies to p66 and p51/66 were dependent on each of three independent variables: the source of antigen amployed, the individual specificity of the antibody, and the method employed to detect reactivity. These monoclonal antibodies provide useful reagents for the study of reverse transcriptase native structure-function relationships.
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PMID:Generation and characterization of murine monoclonal antibodies reactive against N-terminal and other regions of HIV-1 reverse transcriptase. 768 57

Illimaquinone, a natural marine product, was shown by us to inhibit preferentially the ribonuclease H (RNase H) activity of the reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1). We have also shown that illimaquinone inhibits the RNase H activity of HIV-2 RT in addition to that of HIV-1 RT, murine leukemia virus RT, and Escherichia coli RNase H. Chemical modifications of HIV-1 RT by sulfhydryl-specific reagents, such as N-ethylmaleimide (NEM) have been demonstrated to specifically inhibit the RNase H activity of the enzyme. Since our previous studies have suggested that cysteine 280 in HIV-1 RT interacts with the sulfhydryl reagents, we have examined the possibility that illimaquinone interacts with the RT molecules via amino acid residues located in the vicinity of cysteine 280 in both HIV-1 and HIV-2 RTs. In the combined effect studies of illimaquinone and NEM, the two structurally unrelated compounds were shown to be mutually exclusive, exhibiting an antagonistic interaction with both HIV-1 and murine leukemia virus-associated RNase H activities. This implicates cysteine 280, in both HIV-1 and HIV-2 RTs, to be in close proximity to the putative binding site of the enzyme to illimaquinone. The above conclusion is further supported by the fact that the RNase H activity of an enzymatically active mutant of HIV-1 RT, in which cysteine 280 was replaced by serine, was substantially more resistant to illimaquinone than the corresponding activity of the wild-type enzyme. The fact that NEM failed to inhibit E. coli RNase H as opposed to illimaquinone highlights a major difference between the retroviral and bacterial RNase H.
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PMID:The interaction of illimaquinone, a selective inhibitor of the RNase H activity, with the reverse transcriptases of human immunodeficiency and murine leukemia retroviruses. 768 48

A series of monoclonal antibodies against p51/p66 human immunodeficiency virus-1 (HIV-1) reverse transcriptase (RT) were prepared by immunizing mice with the native enzyme immobilized on nitrocellulose. One of these antibodies, designated 1E8, was found to inhibit both RNA-dependent and DNA-dependent polymerase activities of RT but had no effect on the RNase H activity of the enzyme. This inhibition was noncompetitive with respect to primer/template and competitive with respect to deoxynucleoside triphosphate (dNTP). The extent of 1E8 inhibition of RT polymerase activity decreased with increasing concentrations of dNTP in the incubation but was not affected by changes in primer/template concentration. 1E8 bound equally well in solution to both free RT and to the RT-primer/template complex. However, binding to the latter was significantly reduced by the addition of increasing concentrations of dNTP. The ability of dNTP to inhibit the interaction of 1E8 with the RT-primer/template complex was dependent on the identity of the homopolymeric primer/template used; only that dNTP complementary to the template was effective in this respect. 1E8 bound to the p51/p66 reverse transcriptase heterodimer in solution and reacted with both p51 and p66 subunits of reverse transcriptase on Western blots. The antibody is therefore presumed to recognize a linear surface epitope on the enzyme. 1E8 was found to specifically recognize a peptide with the sequence KKDSTKWRK. This sequence corresponds to residues 65-73 of HIV-1 reverse transcriptase, a region identified as highly antigenic by several computer algorithms. Two mutations within this sequence have been identified with resistance to 3'-azido,3'-deoxythymidine. We conclude that residues 65-73 of HIV-1 reverse transcriptase may be at or near the polymerase active site of the enzyme, and may form part of the deoxynucleoside triphosphate binding domain of the enzyme.
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PMID:Monoclonal antibody-mediated inhibition of HIV-1 reverse transcriptase polymerase activity. Interaction with a possible deoxynucleoside triphosphate binding domain. 768 87

A recombinant homodimer p66/p66 of the HIV-1 reverse transcriptase (RT) was expressed in and purified from a protease-deficient strain of the yeast Saccharomyces cerevisiae. The RNase H activity associated with the homodimer was biochemically characterized. The effect of cations and the hybrid substrate specificity were studied. Some compounds which have been found to inhibit retroviral replication were tested as potential inhibitors of the retroviral DNA polymerase and RNase H activities. Most of these compounds inhibited preferentially the DNA polymerase activity. On the other hand, only suramin was found to inhibit RNase H more efficiently than DNA polymerase. As in the case of the DNA polymerase activity, the thiol-reacting agent N-ethylmaleimide (NEM) did not affect the RNAse H activity of HIV RT. When the effect of NEM was tested against E coli RNase H, a weak inhibitory effect was detected. Surprisingly, NEM strongly inhibits the same bacterial RNase H in the presence of a recombinant form of HIV RT devoid of nuclease activity. These results strongly suggest an interaction between E coli RNase H and HIV-1 RT.
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PMID:The ribonuclease H activity of HIV-1 reverse transcriptase: further biochemical characterization and search of inhibitors. 768 32

Replication of retroviral RNA into double-stranded DNA provirus involves initiation of plus-strand DNA synthesis at the polypurine tract, PPT, by the reverse transcriptase (RT). The PPT is highly conserved among the known HIV-1 retroviral isolates. It occurs twice, once within the coding region of the integrase and the other one adjacent to the 3' LTR. The data presented show that two antisense oligonucleotides, a 20-mer and a 40-mer, complementary to the PPT induce complete blocks of DNA synthesis whereas an antisense oligonucleotide outside the PPT is only slightly inhibitory. Previously polypurine sequences have been used by several groups for triplex-formation. During replication the HIV-polypurine tract, PPT, is present in a RNA-DNA hybrid. Therefore triple-helix formation consisting of RNA-DNA and a third DNA strand covering the PPT region was tested here by protection against RNase H cleavage in vitro. Incubation with a pyrimidine oligonucleotide in parallel orientation to the PPT-RNA shows some protection. GT-pyrimidine-purine mixed oligonucleotides (25-mer) led to protection against RNase H up to 50% independent of their orientation. The data suggest that triple-helix formation may have taken place with the PPT in vitro. Therefore, this highly conserved structure may prove useful in nucleic acid based anti-viral therapy with antisense or triple-helix approaches. Furthermore, the influence of HIV-1 nucleocapsid (NC) protein, NCp15, on reverse transcription is reported. The data show a two- to three-fold stimulatory effect of the NCp15 on RNA directed DNA synthesis.
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PMID:The polypurine tract, PPT, of HIV as target for antisense and triple-helix-forming oligonucleotides. 768 36

Using 3D searching techniques based on algorithms derived from graph theory, we have established two previously unreported structural similarities involving the ribonuclease H (RNase H) domain of HIV-1 reverse transcriptase (RT). First, we report that there is a strong similarity between the 3D folds of the RNase H domain of RT and the 'ATPase folds' of hexokinase, the 70 kDa heat-shock cognate protein and actin. Like RNase H, these enzymes are involved in nucleotide binding and metal ion-catalysed cleavage of a phosphodiester bond. Similarities of the folding motif and the position of the metal-binding site in these enzymes suggest possible functional analogies and evolutionary relationships with RNase H. Second, we find there is a strong resemblance between the folds of the RNase H domain and of the p66 and p51 'connection' domains of RT. It is possible that this striking similarity within the RT structure indicates a possible ancestral gene doubling event. The similarity may also indicate that the connection domains possess functional roles in addition to those previously suggested, and they may therefore represent a further target for the design of therapeutic agents.
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PMID:Three-dimensional structural resemblance between the ribonuclease H and connection domains of HIV reverse transcriptase and the ATPase fold revealed using graph theoretical techniques. 768 87

The comparative kinetics of RNA-dependent DNA polymerization catalyzed by wild-type HIV-1 reverse transcriptase and a point mutant specifically lacking RNase H activity were analyzed using a heteropolymeric substrate consisting of a 19-mer primer hybridized to a 345-nucleotide RNA template. The rapid-quench product distributions generated under single-turnover conditions, in which primer extension by the two enzymes was restricted to the incorporation of 5 nucleotides (N+5), were significantly different. Whereas the wild-type enzyme catalyzed synthesis of the N+5 product over the time course of the reaction (20 ms-10 s) with a relatively low degree of processivity, the extent of accumulation of the intermediate N+2 and N+3 products was grossly exaggerated in the parallel mutant-catalyzed time course. The observation of concomitant polymerase-dependent hydrolysis during the course of synthesis catalyzed by the wild-type enzyme suggested that the inability of the RNase H- mutant to hydrolyze the RNA template created blocks to further synthesis by reducing the rates of DNA polymerization at these intermediate positions, and hence impaired the ability of this mutant to complete cDNA synthesis.
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PMID:Rapid kinetic analysis of a point mutant of HIV-1 reverse transcriptase lacking ribonuclease H activity. 768 88

We have expressed and purified from Escherichia coli a human immunodeficiency virus type 1 (HIV-1) RNase H domain consisting of amino acids 400 to 560 of reverse transcriptase with either an N- or C-terminal polyhistidine tag. The native protease cleavage site of HIV-1 reverse transcriptase is between amino acids 440 and 441. Purification on Ni(2+)-nitrilotriacetate agarose resulted in a highly active RNase H domain dependent on MnCl2 rather than MgCl2. Activity was unambiguously attributed to the purified proteins by an in situ RNase H gel assay. Residues 400 to 426, which include a stretch of tryptophans, did not contribute to RNase H activity, and the polyhistidine tag was essential for activity. Despite the requirement for a histidine tag, the recombinant RNase H proteins retained characteristics of the wild-type heterodimer, as determined by examining activity in the presence of several known inhibitors of HIV-1 RNase H, including ribonucleoside vanadyl complexes, dAMP, and a monoclonal antibody. Importantly, the isolated RNase H domain produced the same specific cleavage in tRNA(3Lys) removal as HIV-1 heterodimer, leaving the 3'-rA (adenosine 5' phosphate) residue of a model tRNA attached to the adjacent U5 sequence. This HIV-1 RNase H domain sedimented as a monomer in a glycerol gradient.
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PMID:Purification and characterization of an active human immunodeficiency virus type 1 RNase H domain. 768 7

We have studied the effects of four nonnucleoside inhibitors, including the novel natural product inhibitor calanolide A, on molecular chimeras containing complementary segments of human immunodeficiency virus type 1 (HIV-1) and type 2 (HIV-2) reverse transcriptases (RTs). All four compounds specifically inhibited the DNA polymerase activity of HIV-1 RT but had no apparent effect on the RNase H activity of this enzyme or on the DNA polymerase or RNase H activity of HIV-2 RT. Three of these compounds showed the generally expected patterns of resistance and susceptibility with the various chimeric RTs. However, the inhibition patterns of the chimeric RTs by calanolide A provided evidence that there is a segment between residues 94 and 157 in HIV-1 RT that is critical for inhibition. However, the data also suggest that there may be a second segment located between amino acids 225 and 427 in HIV-1 RT that is also important for specifying susceptibility to the drug.
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PMID:Specific inhibition of the reverse transcriptase of human immunodeficiency virus type 1 and the chimeric enzymes of human immunodeficiency virus type 1 and type 2 by nonnucleoside inhibitors. 768 94

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