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

In E. coli cells transformed by an expression vector for the production of the protease (PR) integrase (IN) of HIV-1, three vitally encoded proteins were produced: an 11-kDa protein and a 32-kDa protein identified by immunoassays as the mature PR and IN protein, respectively, and an additional protein 15-kDa in size that reacted strongly with an antiserum recognizing a region in the carboxyl half of the IN protein. The kinetics of its synthesis indicated that it was not a degradation product of p32-IN, rather it probably arose from internal initiation at an AUG codon in the middle of the IN gene. Amino terminal sequence analysis of the first 70 residues demonstrated a perfect match with those predicted from the nucleotide sequence, beginning with the methionine codon at position 154 of the integrase gene.
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PMID:Characterization of an internally initiated integrase protein of HIV-1 produced in E. coli. 220 96

Proviral integration is a required step in the retrovirus life cycle. The mechanism of integration involves specific modification of the ends of linear viral DNA and subsequent recombination with host sequences. Integration results in the limited loss of sequence information at the termini of the viral genome. The composition of the intact linear DNA termini were inferred by sequencing the 2-long terminal repeat (2-LTR) circle junction that is formed when the linear molecule undergoes intramolecular, blunt-end ligation. The junction sequence contained the nucleotides GTAC that were not present at the ends of the integrated provirus. Comparison with the sequence of the LAV-1 strain of HIV-1 demonstrated that the GT dinucleotide derived from the right-hand terminus (U5) of the linear viral DNA and the AC dinucleotide came from the left-hand terminus (U3). Therefore, the corrected size of the LAV-1 LTR is 637 bp. This conclusion was confirmed independently by assessing the structure of linear viral DNA in acutely infected T cells. A portion of the population of linear HIV-1 DNA molecules were specifically deleted at their 3' ends; the extent of this deletion was 2 bases. This result is consistent with the activity of viral integrase protein on linear viral DNA and it accounts for the structure of integrated HIV-1 proviruses.
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PMID:Two bases are deleted from the termini of HIV-1 linear DNA during integrative recombination. 223 79

Molecular evolution and phylogeny of different human immunodeficiency virus type 1 (HIV1) strains, of a type 2 (HIV2) strain, and of two simian immunodeficiency viruses (SIVAGM and SIVMAC) have been studied by comparing the nucleotide sequences of the two regions of their pol genes which encode the reverse transcriptase (RT) and endonuclease/integrase (EN). The analyses show that the different HIV 1s form one cluster (HIV1 group) and that the SIVs and HIV2 form another (HIV2 group). When the entire genomes of a HIV1, a HIV2, and the two SIVs were compared, the SIVAGM showed a unique pattern of mutation accumulations; that is, the SIVAGM has accumulated more nonsynonymous changes than synonymous changes in the RT and EN regions after its recent divergence from SIVMAC-142, and, furthermore, it has a deletion of approximately 350 bp in the region between the pol and env genes. The SIVAGM was apparently derived from cell cultures infected with a macaque isolate, SIVMAC-251. The contamination provides an opportunity to measure the maximum rate of evolution in the SIVAGM by comparing its DNA sequence to those of SIVMAC-251 and SIVMAC-142. The analysis shows that the rates are given approximately by (1.95 +/- 1.37) x 10(-3)/site/year for one SIVAGM sequence and (5.18 +/- 2.25) x 10(-3)/site/year for another.
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PMID:Molecular evolution of the human and simian immunodeficiency viruses. 246 34

To determine the cleavage specificity of the proteases of the type 1 and 2 human immunodeficiency viruses (HIV-1, HIV-2), we interchanged this domain of the polymerase (pol) genes and analyzed the maturation programs of the chimeric polyproteins in an Escherichia coli expression system. In both cases, release of reverse transcriptase and integrase was observed, together with the respective 10-kDa protease form resulting from autocatalysis, although the maturation proceeded less efficiently compared to the homologous system. In further experiments, the ability of both HIV-1 and HIV-2 proteases to release in vivo gag p24 from an in-frame fusion of the full length gag and protease precursors was analyzed. In either case, p24 was released, albeit with greater efficiency in the heterologous gene construction. In vitro mixed lysate experiments with the HIV-1 gag precursor furthermore demonstrate that both enzymes respond to the aspartyl proteinase inhibitor pepstatin A. Taken together, these results illustrate that although different cleavage recognition sequences exist for HIV-1 and -2, they are amenable to the proteases of both viruses, but additionally that subtle differences in the mode of action of both enzymes are observable.
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PMID:Comparison of the human immunodeficiency virus type 1 and 2 proteases by hybrid gene construction and trans-complementation. 267 Sep 28

Efficient replication of HIV-1 requires integration of a DNA copy of the viral genome into a chromosome of the host cell. Integration is catalyzed by the viral integrase, and we have previously reported that phenolic moieties in compounds such as flavones, caffeic acid phenethyl ester (CAPE, 2), and curcumin confer inhibitory activity against HIV-1 integrase. We now extend these findings by performing a comprehensive structure-activity relationship using CAPE analogues. Approximately 30 compounds have been prepared as HIV integrase inhibitors based on the structural lead provided by CAPE, which has previously been shown to exhibit an IC50 value of 7 microM in our integration assay. These analogues were designed to examine specific features of the parent CAPE structure which may be important for activity. Among the features examined for their effects on inhibitory potency were ring substitution, side chain length and composition, and phenyl ring conformational orientation. In an assay which measured the combined effect of two sequential steps, dinucleotide cleavage and strand transfer, several analogues have IC50 values for 3'-processing and strand transfer lower than those of CAPE. Inhibition of strand transfer was assayed using both blunt-ended and "precleaved" DNA substrates. Disintegration using an integrase mutant lacking the N-terminal zinc finger and C-terminal DNA-binding domains was also inhibited by these analogues, suggesting that the binding site for these compounds resides in the central catalytic core. Several CAPE analogues were also tested for selective activity against transformed cells. Taken together, these results suggest that the development of novel antiviral agents for the treatment of acquired immune deficiency syndrome can be based upon inhibition of HIV-1 integrase.
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PMID:Hydroxylated aromatic inhibitors of HIV-1 integrase. 747 44

Retroviral integration is the step which leads to establishment of the provirus, cis- and trans-acting regions of the human immunodeficiency type 1 (HIV-1) retrovirus genome, including the attachment site (att) at the ends of the unintegrated viral DNA and the conserved domains within the integrase (IN) protein, have been identified as being important for integration. We investigated the role of each of these regions in the context of an infectious HIV-1 molecular clone through point mutagenesis of the att site and the zinc finger-like and catalytic domains of IN. The effect of each mutation on integration activity was examined by using a single-step infection system with envelope-pseudotype virus. The relative integration efficiency was estimated by monitoring the levels of viral DNA over time in the infected cells. The integration activities of catalytic domain point mutants and att site deletion mutants were estimated to be 0.5 and 5% of wild-type activity, respectively. However, in contrast with previous in vitro cell-free integration studies, alteration of the highly conserved CA dinucleotide resulted in a mutant which still retained 40% of wild-type integration activity. The relative levels of expression of each mutant, as measured by a luciferase reporter gene, correlated with levels of integration. This observation is consistent with those of previous studies indicating that integration is an obligatory step for retroviral gene expression. Interestingly, we found that three different HIV-1 constructs bearing point mutations in the zinc finger-like domain synthesized much lower levels of viral DNA after infection, suggesting impairment of these mutants before or at the initiation of reverse transcription. Western blot (immunoblot) analysis demonstrated wild-type levels of reverse transcriptase within the mutant virions. In vitro endogenous reverse transcription assays indicated that all three mutants in the zinc finger-like domain had wild-type levels of reverse transcriptase activity. These data indicate that in addition to integration, IN may have an effect on the proper course of events in the viral life cycle that precede integration.
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PMID:Genetic analysis of human immunodeficiency virus type 1 integrase and the U3 att site: unusual phenotype of mutants in the zinc finger-like domain. 747 78

Retroviruses are a family of widespread small animal viruses about 110 nm in diameter, composed of an inner core surrounded by an outer envelope formed of a lipid bilayer of cellular origin in which are anchored viral glycoproteins. The inner core is formed by an outer shell of capsid protein molecules (CA protein) surrounding the dimeric RNA genome in close association with about 2000 molecules of nucleocapsid protein (NC protein) and molecules of reverse transcriptase (RT) and integrase (IN). Conversion of the genomic single-stranded RNA into a double-stranded proviral DNA by RT takes place in the nucleocapsid substructure and involves two DNA strand transfers to generate the long terminal repeats (LTR) required for IN-mediated integration of the proviral DNA into the cellular genome and its expression. In this review we have summarized some of the properties and functions of the nucleocapsid protein of the most intensely studied oncoretroviruses (MuLV and ASLV) and lentiviruses (HIV-1). Recent biochemical and genetic data on retroviral NC proteins have shown that this small viral protein endowed with a strong affinity for nucleic acids exhibits nucleic acid annealing and strand transfer activities and is required for the formation of infectious viral particles. These new activities of NC protein are most probably necessary at the early steps of proviral DNA synthesis. The 3-D structures of HIV-1 and MoMuLV NC proteins, deduced from NMR studies, are characterized by a central globular domain with one (MoMuLV) or two (HIV-1) zinc fingers. This should facilitate a rational approach of new anti-HIV therapies based on inhibition of NC protein functions. Due to space limitations and the very abundant literature on retroviruses, references to articles prior to the publication of the second volume of RNA Tumor Viruses in 1985 (Weiss et al., 1985) will be minimal. We also direct the reader to an excellent review which summarizes recent insights into biochemical and structural aspects of the retroviral enzymes PR, RT and IN (Katz & Skalka, 1994).
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PMID:First glimpses at structure-function relationships of the nucleocapsid protein of retroviruses. 750 Mar 30

In this study, we have characterized the HIV DNA-containing replication complexes present in cells early after cell-to-cell infection, using sucrose gradient sedimentation and immunoprecipitation. Six hours after cell-to-cell infection, a cytoplasmic HIV replication complex sedimented as a large structure (320S). This replication complex was precipitated by antisera to three virus-coded enzymes (reverse transcriptase, integrase, protease), to the matrix protein (p17), and to cellular histones but not to the major capsid protein (p24). This replication complex was not associated with cell membranes and could not be dissociated into smaller discrete subunits, using detergents. Nuclear extracts from the same cell-to-cell infection contained a smaller (80S) complex that lacked reverse transcriptase and matrix protein (p17). Cytoplasmic replication complexes from a cell-free virus infection sedimented as 160S structures under identical conditions, as previously reported. Our results indicate that, following cell-to-cell transmission of HIV, all the HIV pol gene products, the matrix protein p17, and cellular histones are present in cytoplasmic replication complexes that are taking part in or have completed reverse transcription. Transportation of the cytoplasmic replication complex to the nucleus is associated with structural changes, including a reduction in size and altered protein composition.
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PMID:Characterization of HIV replication complexes early after cell-to-cell infection. 750 34

COS-7 cells transfected with human immunodeficiency virus type 1 (HIV-1) proviral DNA produce virus in which three tRNA species are most abundant in the viral tRNA population. These tRNAs have been identified through RNA sequencing techniques as tRNA(3Lys) the primer tRNA in HIV-1, and members of the tRNA(1,2Lys) isoacceptor family. These RNAs represent 60% of the low-molecular-weight RNA isolated from virus particles, while they represent only 6% of the low-molecular-weight RNA isolated from the COS cell cytoplasm. Thus, tRNA(Lys) is selectively incorporated into HIV-1 particles. We have measured the ratio of tRNA(3Lys) molecules to copies of genomic RNA in viral RNA samples and have calculated that HIV-1 contains approximately eight molecules of tRNA(3Lys) per two copies of genomic RNA. We have also obtained evidence that the Pr160gag-pol precursor is involved in primer tRNA(3Lys) incorporation into virus. First, selective tRNA(Lys) incorporation and wild-type amounts of tRNA(3Lys) were maintained in a protease-negative virus unable to process Pr55gag and Pr160gag-pol precursors, indicating that precursor processing was not required for primer tRNA incorporation. Second, viral particles containing only unprocessed Pr55gag protein did not selectively incorporate tRNA(Lys), while virions containing both unprocessed Pr55gag and Pr160gag-pol proteins demonstrated select tRNA(3Lys) packaging. Third, studies with a proviral mutant containing a deletion of most of the reverse transcriptase sequences and approximately one-third of the integrase sequence in the Pr160gag-pol precursor resulted in the loss of selective tRNA incorporation and an eightfold decrease in the amount of tRNA(3Lys) per two copies of genomic RNA. We have also confirmed herein finding of a previous study which indicated that the primer binding site is not required for the selective incorporation of tRNA(Lys).
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PMID:Role of Pr160gag-pol in mediating the selective incorporation of tRNA(Lys) into human immunodeficiency virus type 1 particles. 751 Nov 67

The inhibition of HIV-1 integrase by flavones and related compounds was investigated biochemically and by means of structure-activity relationships. Purified enzyme and synthetic oligonucleotides were used to assay for three reactions catalysed by integrase: (1) processing of 3' termini by cleavage of the terminal dinucleotide; (2) strand transfer, which models the integration step; and (3) "disintegration," which models the reversal of the strand transfer reaction. Inhibitions of all three reactions by flavones generally occurred in parallel, but caffeic acid phenethyl ester (CAPE) appeared to inhibit reaction 2 selectively. CAPE, however, inhibited reactions 1 and 3 effectively when preincubated with the enzyme, suggesting that this compound differs from the flavones primarily in requiring more time to block the enzyme. The core integrase fragment consisting of amino acids 50-212 retained the ability to catalyse reaction 3, and flavones and CAPE retained the ability to inhibit. Hence, the putative zinc-finger region that is deleted in this fragment is probably not the target of inhibition. Inhibition by flavones usually required the presence of at least one ortho pair of phenolic hydroxyl groups and at least one or two additional hydroxyl groups. Potency was enhanced by the presence of additional hydroxyl groups, especially when present in ortho pairs or in adjacent groups of three. Inhibitory activity was reduced or eliminated by methoxy or glycosidic substitutions or by saturation of the 2,3 double bond. These structure-activity findings for flavones were generally concordant with those previously reported for reverse transcriptase and topoisomerase II. These findings are discussed in the context of a review of the effects of flavones on various enzymes, the possible mechanisms of inhibition, and the potential for building upon a general pharmacophore to generate target specificity.
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PMID:Inhibition of HIV-1 integrase by flavones, caffeic acid phenethyl ester (CAPE) and related compounds. 752 Jun 98


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