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:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two hundred fifteen patients infected with human immunodeficiency virus (HIV) participated in a prospective longitudinal study of HIV-related heart disease. Evaluation included signal-averaged electrocardiography and echocardiography. Fifteen patients underwent endomyocardial biopsy, 5 had cardiovascular symptoms and 10 did not. Cardiac myocytes or dendritic cells were prepared by individual cell microdissection to sort them from other cell types such as interstitial cells or circulating blood elements. HIV proviral sequences were amplified in samples of 15 to 20 cells of each type by multiplex, nested, polymerase chain reaction and hybridized to 32P-labeled probes specific for regions within the gag and pol genes of HIV-1. The results showed the presence of HIV sequences in myocytes of 2 of 5 patients with cardiac symptoms and in 6 of 10 without. Thus, symptomatic HIV cardiomyopathy did not appear to be a direct consequence of the virus on myocardial cells. In dendritic cells, HIV sequences were detected in 5 of 5 patients with cardiac symptoms and in 8 of 10 with apparently normal ventricular function. Furthermore, dendritic cells were somewhat more numerous in the myocardium of symptomatic than asymptomatic patients. Our studies are the first to directly detect the HIV genome in purified cardiac myocytes from patients with and without cardiac dysfunction. Our findings do not support a direct role of the virus in myocardial dysfunction. However, the results do suggest that the interstitial dendritic cells may be involved in some manner in the development of cardiac dysfunction observed in HIV-infected patients.
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PMID:Cardiac myocytes and dendritic cells harbor human immunodeficiency virus in infected patients with and without cardiac dysfunction: detection by multiplex, nested, polymerase chain reaction in individually microdissected cells from right ventricular endomyocardial biopsy tissue. 174 36

Nucleotide sequences for long terminal repeat (LTR), gag, the protease gene, and pol of a human T-lymphotropic virus type 1 (HTLV-1) isolate of probable Caribbean origin (HTLV-1CH) and a Zairian isolate (HTLV-1EL) were determined providing complete proviral sequences for these isolates. These sequences were compared with those available from previously analyzed isolates. Nucleotide sequence differences of 1.2-3.3% were identified among isolates for which complete genetic information was available. Nucleotide sequence diversity was distributed relatively evenly over the genome with 1.3-5.2% differences in the LTR, 1.1-2.9% differences in gag, 0.7-2.1% differences in the protease gene, 0.9-2.5% differences in pol, 0.9-2.4% differences in env, 0.0-1.4% differences in rex, and 0.1-2.6% differences in tax. There were 1.2-2.3% amino acid differences overall, with 0.8-1.6% nonconservative amino acid alterations. Nucleotide differences were not found in regions of the LTR which are important for transcriptional activity or Tax response. Within the Rex-response element, nucleotide differences were found predominantly in loop rather than stem structures, thus, maintaining the overall secondary structure necessary for Rex activity. Evolutionary tree analysis of the sequence differences suggests a predominant clustering of different HTLV1 strains according to geographical origin. An open reading frame was also identified on the minus DNA strand situated between the env and rex/tax genes which exhibits 0.1-6.9% nucleotide sequence variation among HTLV1 strains. The limited sequence variation among HTLV-1 strains is in striking contrast to the extensive heterogeneity seen among human immunodeficiency virus (HIV) strains.
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PMID:Nucleotide sequence analysis of isolates of human T-lymphotropic virus type 1 of diverse geographical origins. 176 Feb 30

The crystal structure of the aspartyl protease encoded by the gene pol of the human immunodeficiency virus (HIV-1, isolate BRU) has been determined to 2.7 A resolution. The enzyme, expressed as an insoluble denatured polypeptide in inclusion bodies of Escherichia coli has been renatured and crystallized. It differs by several amino acid replacements from the homologous enzymes of other HIV-1 isolates. A superposition of the C alpha-backbone of the BRU protease with that of the SF2 protease gives a roots mean square positional difference of 0.45 A. Thus, neither the denaturation/renaturation process nor the amino acid replacements have a noticeable effect on the three-dimensional structure of the BRU protease or on the detailed conformation of the catalytic site, which is very similar to that of other aspartyl proteases.
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PMID:The three-dimensional structure of the aspartyl protease from the HIV-1 isolate BRU. 179 32

Specific processing of the human immunodeficiency virus (HIV) gag and gag-pol polyprotein gene products by the HIV protease is essential for the production of mature, infections progeny virions. Inhibitors of HIV protease block this maturation and thus prohibit the spread of HIV in vitro. Previously, we reported a series of novel, symmetric inhibitors of HIV protease designed to match the C2 symmetric structure of the active site of the enzyme. In response to the poor aqueous solubility of those lead compounds, we designed a series of analogs with substantially improved (greater than 10(4) fold) solubility. These inhibitors showed anti-HIV activity in H9 and MT4 cells at 0.05 to 10 microM, and in most cases, they were noncytotoxic at concentrations in excess of 100 microM. Further examination of one inhibitor (A-77003) revealed broad-spectrum activity against both HIV types 1 and 2, including azidothymidine-resistant HIV, in a variety of transformed and primary human cell lines. After administration of the inhibitors to rats, short half-lives and, with two notable exceptions, moderate oral bioavailability were observed. Additional pharmacokinetic studies in dogs and monkeys revealed the potential utility of A-77003 as an intravenous anti-HIV agent.
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PMID:Antiviral and pharmacokinetic properties of C2 symmetric inhibitors of the human immunodeficiency virus type 1 protease. 180 93

Recent studies have demonstrated that genomes of poliovirus with deletions in the P1 (capsid) region contain the necessary viral information for RNA replication. To test the effects of the substitution of foreign genes on RNA replication and protein expression, chimeric human immunodeficiency virus type 1 (HIV-1)-poliovirus genomes were constructed in which regions of the gag, pol, or env gene of HIV-1 were substituted for regions of the P1 gene in the infectious cDNA clone of type 1 Mahoney poliovirus. The HIV-1 genes were inserted between nucleotides 1174 and 2956 of the poliovirus cDNA so that the translational reading frame was maintained between the HIV-1 genes and the remaining poliovirus genes. The chimeric genomes were positioned downstream from a T7 RNA polymerase promoter and transcribed in vitro by using T7 RNA polymerase, and the RNA was transfected into HeLa cells. A Northern (RNA blot) analysis of the RNA from transfected cells demonstrated the appropriate-size RNA, corresponding to the full-length chimeric genomes, which increased over time. Immunoprecipitation with antibodies specific for poliovirus RNA polymerase or sera from AIDS patients demonstrated the expression of the poliovirus RNA polymerase and HIV-1 proteins as fusions with the poliovirus P1 protein. The expression of the HIV-1-poliovirus P1 fusion protein was dependent upon an intact RNA polymerase gene, indicating that RNA replication was required for efficient expression. A pulse-chase analysis of the protein expression from the chimeric genomes demonstrated the initial rapid proteolytic processing of the polyprotein from the chimeric genomes to give HIV-1-poliovirus P1 fusion protein in transfected cells; the HIV-1 gag-P1 and HIV-1 pol-P1 fusion proteins exhibited a greater intracellular stability than the HIV-1 env-P1 fusion protein. Finally, superinfection with wild-type poliovirus of HeLa cells which had been transfected with the chimeric genomes did not significantly affect the expression of chimeric fusion protein. The results are discussed in the context of poliovirus RNA replication and demonstrate the feasibility of using poliovirus genomes (minireplicons) as novel vectors for expression of foreign proteins.
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PMID:Expression of human immunodeficiency virus type 1 (HIV-1) gag, pol, and env proteins from chimeric HIV-1-poliovirus minireplicons. 185 59

The expression of the gag-pol polyprotein of human immunodeficiency virus type 1 (HIV-1) occurs via ribosomal frameshifting between the gag and pol genes. Because low levels of the gag-pol precursor are naturally produced in HIV-1-infected cells, a limited amount of information is available on the biology of this molecule. To further study this polyprotein, two mutant HIV-1 proviral genomes were created to position the gag and pol genes in the same translational reading frame. The mutations inserted a single thymidine nucleotide at the site of ribosomal frameshifting (nucleotide 1635), which results in the addition of a phenylalanine residue (frameshift 1 [FS1]), or a single adenine nucleotide, which results in the addition of a leucine residue (frameshift 2 [FS2]). Transfection of the mutant proviral genomes into COS-1 cells resulted in the expression of the p160gag-pol polyprotein precursor as well as the proteolytically processed gag and pol gene products. Metabolic labeling of the transfected cells with [3H]myristic acid revealed that the p160gag-pol and p17gag proteins expressed from the mutant genomes were myristylated. While the supernatants from COS-1 cells transfected with wild-type or mutant proviral genomes contained similar amounts of p24 antigen, the levels of reverse transcriptase were, on the average, 10 times greater in the supernatants from cells transfected with the FS1 and FS2 proviral genomes. The cells transfected with the wild-type proviral genome released infectious viral particles, while the mutant proviral genomes released p24 and reverse transcriptase in the absence of detectable particle formation. The mutant proviral genomes were completely noninfectious as determined by coculture of the transfected COS-1 cells with SupT1 cells. These results demonstrate that the gag-pol polyprotein of HIV-1 contains the appropriate signals for proteolytic processing and association with intracytoplasmic membranes in the absence of virion formation.
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PMID:Overexpression of the gag-pol precursor from human immunodeficiency virus type 1 proviral genomes results in efficient proteolytic processing in the absence of virion production. 187 Feb 15

The vaccinia virus expression system was used to determine the role of human immunodeficiency virus type 1 (HIV-1) protease in viral morphogenesis and maturation. The unprocessed p55 gag precursor polyprotein alone was assembled to form HIV-1 particles which budded from cells. The particles were spherical and immature, containing an electron-dense shell in the particle submembrane; there was no evidence of core formation. Expression of both gag and pol proteins from a recombinant containing the complete gag-pol coding sequences resulted in intracellular processing of gag-pol proteins and the production of mature particles with electron-dense cores characteristic of wild-type HIV virions. To ascertain the role of protein processing in particle maturation, the pol ORF in the gag-pol recombinant was truncated to limit expression of the pol gene to the protease domain. With this recombinant expressing p55 gag and protease, intracellular processing was observed. Some of the resultant particles were partially mature and contained processed gag protein subunits. In contrast, particle maturation was not observed when the HIV-1 protease and p55 gag were coexpressed from separate recombinants, despite evidence of intracellular gag processing. These findings suggest that HIV-1 protease must be an integral component of the full-length gag-pol precursor for optimal processing and virion maturation.
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PMID:Maturation of human immunodeficiency virus particles assembled from the gag precursor protein requires in situ processing by gag-pol protease. 187 82

Examination of the life cycle of the human immunodeficiency virus (HIV) has shown that multiple levels of regulation exist, including some which require the virus-encoded Rev protein. In the absence of Rev, mRNAs encoding the structural proteins remain untranslated, a phenomenon which appears, in part, to be caused by nuclear entrapment of these RNA species. To examine the basis for repression of structural gene mRNA expression, a heterologous assay system was utilized to determine whether regions present within gag and pol contain elements capable of suppressing gene expression when present in cis. Both genes were found to contain cis-acting repressor sequences (CRS) that block gene expression when present within the 3' untranslated portion of a heterologous gene transcript. The element within pol was found to have the strongest repressive effect. While Rev alone was unable to reverse the repression observed with the pol sequence, addition of the env Rev-responsive element (RRE) in cis and Rev in trans did cause reversal of inhibition. Deletion mutagenesis defined a 260-bp element within the 3' portion of pol that contains a potent CRS which functions when present in the sense orientation. The corresponding region in HIV-2 pol was found to contain a functionally similar CRS element. To examine the mechanism of repression, the effects of the CRS elements on both the abundance and subcellular distribution of the mRNAs were examined. Neither was dramatically altered when examined in the context of a heterologous reporter (chloramphenicol acetyltransferase) mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification and characterization of intragenic sequences which repress human immunodeficiency virus structural gene expression. 189 85

We evaluated the use of the INNO-LIA HIV-1/HIV-2 Ab test (LIA HIV; Innogenetics) for the confirmation of antibodies to human immunodeficiency virus type 1 (HIV-1) and type 2 (HIV-2). The test includes three recombinant HIV-1 proteins: p24 (gag), p17 (gag), and endonuclease (p31; pol), in combination with two synthetic peptides derived from the env gene of HIV-1 and one synthetic peptide selected from the env gene of HIV-2. Analysis of 450 sera from blood donors, 220 sera from patients with non-HIV pathology, and 28 Western blot (WB) p24-only reactive sera revealed no false-positive results, and the rate of indeterminate results was substantially lower than that with WB. Testing of 334 WB-confirmed HIV antibody-positive sera (309 HIV-1; 25 HIV-2) revealed no false-negative results. In two of seven seroconversion panels tested, LIA HIV detected the presence of HIV antibodies before WB did. In the other five panels, LIA HIV and WB confirmed the presence of HIV antibodies in the same sample. The LIA HIV assay therefore appears well suited for routine confirmation of the presence of HIV-1 and HIV-2 antibodies.
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PMID:Confirmation and differentiation of antibodies to human immunodeficiency virus 1 and 2 with a strip-based assay including recombinant antigens and synthetic peptides. 191 62

An ultrastructural study was performed on rabbit epithelial RK-13 cells and CD4+ human T lymphocyte lines infected with various recombinant vaccinia viruses (RVVs) expressing genes of human immunodeficiency virus (HIV): the mature p17 or p24 gag domain alone, the entire or truncated gag gene, the reverse transcriptase domain, or the gag-pol genes with a frameshift mutation. Cells infected with RVVs that produced the gag polyprotein with a predicted Mr of more than 48K showed budding and release of HIV-like particles into the extracellular space. These particles were not observed in cells expressing a truncated gag gene (p17 and p24 regions). Mature HIV-like particles were observed extracellularly when the entire gag gene and the protease region of the pol gene were expressed. In contrast, in cells infected with RVVs that contained the gag-pol gene with a frameshift mutation, neither recognizable budding structures nor extracellular HIV-like particles could be detected. These results suggest that the gag gene, particularly its 3' terminus, is necessary for the assembly of HIV particles. In addition, the protease region of the pol gene seems to be required for morphological maturation of HIV particles, but complete proteolytic cleavage of the gag protein may prevent bud formation.
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PMID:Role of the gag and pol genes of human immunodeficiency virus in the morphogenesis and maturation of retrovirus-like particles expressed by recombinant vaccinia virus: an ultrastructural study. 191 28


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