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)

To generate nonpathogenic viral particles which express active human immunodeficiency virus type 1 (HIV-1) protease (PR), plasmids containing sequences from the genomes of HIV-1 and Moloney murine leukemia virus (M-MuLV) were constructed. Either the PR coding region alone; the gag, PR, and reverse transcriptase protein-coding regions; or the complete gag and pol protein-coding regions from HIV-1 were substituted for the corresponding regions of a full-length M-MuLV clone to yield the chimeric plasmids pMoHIV-I, pMoHIV-III, and pMoHIV-IV, respectively. Cell lines which express the viral gag polyprotein were isolated for hybrids pMoHIV-I and pMoHIV-III. These cells produced viral particles which contained processed core proteins. Cleavage of the gag polyprotein in the viral particles was inhibited by the HIV-1 PR inhibitor L-687908, indicating that the viral PR is responsible for the observed processing. The hybrid virions were not infectious; analyses indicated that the viral particles contained little or no reverse transcriptase activity. In addition, particles produced by pMoHIV-III transfectants failed to package the viral genomic RNA. The cell line which expresses and processes the HIV-1 gag polyprotein is a safe and effective reagent for the in vivo evaluation of potential inhibitors of the HIV-1 PR.
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PMID:Expression of active human immunodeficiency virus type 1 protease by noninfectious chimeric virus particles. 170 93

Newly developed substrate analogue peptidomimetics are able to inhibit the human immunodeficiency virus, HIV-1 proteinase at nanomolar concentration. In HIV infected cell culture they exhibit antiviral activity. We have analyzed the non-infectious HIV particles produced in chronically HIV infected cell culture in presence of one of these inhibitors. The total production of virus particles was not substantially reduced in drug treated cultures, compared to non-inhibited control cultures, but the infectivity of these virus particles was reduced about 100 fold. The processing of gag and gag-pol protein precursor was inhibited; only borderline activity of reverse transcriptase (RT) could be detected in these particles and they contained nonprocessed gag precursor protein. Thin section electron microscopy of inhibitor-treated, HIV-infected cells revealed reduced viral cytopathogenicity and both inhibition of particle assembly and incomplete maturation of the particles formed. The HIV particles produced in the presence of the proteinase inhibitor were studded with envelope glycoprotein knobs and often comprised multiple budding regions, but were morphologically immature.
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PMID:Analysis of non-infectious HIV particles produced in presence of HIV proteinase inhibitor. 192 79

The activity of the human immunodeficiency virus (HIV) protease is essential for processing of the gag-pol precursor proteins and maturation of infectious virions. We have prepared a peptidomimetic inhibitor, U-75875, that inhibited HIV-1 gag-pol protein processing in an essentially irreversible manner. Noninfectious virus particles produced in the presence of the drug contained gag precursors and were morphologically immature. In human peripheral blood mononuclear cells and in a continuous cell line, U-75875 completely blocked HIV replication; in the latter case, no spread occurred over a period of 4 weeks. U-75875, on a molar basis, was as potent as 3'-azido-3'-deoxythymidine in blocking HIV-1 replication in human lymphocytes and also inhibited HIV-2 and simian immunodeficiency virus proteases, demonstrating that it has broad activity. These results provide further evidence for the therapeutic potential of protease inhibitors in HIV infection.
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PMID:An inhibitor of the protease blocks maturation of human and simian immunodeficiency viruses and spread of infection. 221 78

The protease encoded by the human immunodeficiency virus (HIV) processes the viral gag and gag-pol protein precursor by posttranslational cleavage. In this study we have demonstrated by site-specific mutagenesis (Asp----Thr) and by pepstatin A inhibition that the recombinant HIV protease is an aspartic-type protease. Furthermore, incubation of HIV-infected H9 cells with pepstatin A inhibited part of the intracellular processing of the HIV gag protein yet had no apparent toxicity on HIV-infected cells during 48 hr of incubation.
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PMID:Human immunodeficiency virus has an aspartic-type protease that can be inhibited by pepstatin A. 304 20

In order to define the protease domain of human immunodeficiency virus 1, various regions of the pol open reading frame were cloned and expressed in Escherichia coli. Antiserum directed against the conserved retroviral protease active site was used to identify pol precursor and processed species containing the presumed protease domain. The smallest product that accumulates is about 11 kDa as measured by NaDodSO4/PAGE. This size agrees with that predicted from the presence in this region of two Phe-Pro sequences, which is one of the cleavage sites recognized by HIV protease. DNA encoding only the predicted 11-kDa protein was cloned, bypassing the need for autoprocessing, and the protein was expressed to a high level in E. coli. This form is active as demonstrated by its ability to specifically cleave protease-deficient pol protein in vivo in E. coli. Extracts of E. coli containing the 11-kDa protease also process human immunodeficiency virus gag substrates in vitro. These results demonstrate that the 11-kDa protease is sufficient for enzymatic activity and are consistent with a major role for this form in virus maturation.
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PMID:An 11-kDa form of human immunodeficiency virus protease expressed in Escherichia coli is sufficient for enzymatic activity. 328 30

To investigate the possibility of using hepatitis B virus (HBV) as a vector, the tat gene from human immunodeficiency virus type 1 (HIV-1) was inserted into the full-length HBV genome in-frame with the polymerase (pol) open reading frame in the tether region and downstream of the preS1 promoter. We demonstrated that the tat gene was expressed with full activity in transactivating the HIV-1 long terminal repeat (LTR). The expression of the tat gene in the context of the HBV genome in chicken hepatoma and human cervical carcinoma cells, however, was not as efficient as that in human hepatoblastoma cells, which reflects the cellular and species specificity of promoters of hepadnaviruses. Detection of RNA expressed from this HBVtat recombinant revealed transcription of the tat gene by two promoters: the core/pol promoter and the preS1 promoter. A Pol-Tat fusion protein expressed by the core/pol promoter did not seem to contribute to the tat transactivation activity of the HBVtat recombinant since a frameshift mutation in the pol gene did not affect the recombinant tat function. The functional tat protein, therefore, was most likely expressed as a Tat-Pol fusion product. Endogenous polymerase assays showed that the pol protein expressed from the HBVtat recombinant was still active although at a reduced level. Hepatitis B surface antigens and e antigen produced from this recombinant were detected at similar levels as those produced from the wild type. Notably, the capability of forming complete HBV particles was still retained. These studies indicate the potential of constructing HBV as a replicative vector. We also showed that manipulation of a nonreplicative HBV vector was possible. Expression of the HBV polymerase could be completely eliminated and replication of the nonreplicative HBV recombinant could be supported by Pol transcomplementation.
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PMID:Development of replicative and nonreplicative hepatitis B virus vectors. 947 57

Simian immunodeficiency virus (SIV) is a robust pathogen used in non-human primates to model HIV vaccines. SIV encodes a number of potential vaccine targets. By far the largest and most conserved protein target in SIV is its gag-pol protein that bears many epitopes to drive multivalent immune T cell responses. While gag-pol is an attractive antigen, it is only translated after a frame shift between gag and pol with the effect that gag and pol are expressed at an approximate 10/1 ratio. The codon bias of native lentiviral genes are also mismatched with the abundance of tRNAs in mammalian cells resulting in poor expression of unmodified SIV genes. To provide a better SIV gag-pol immunogen for gene-based vaccination, we codon-optimized the full gag-pol sequence from SIVmac239. To increase pol expression, we artificially moved the pol sequence in frame to gag to bypass the need for a translational frame shift for its expression. Finally, we inserted four "self-cleaving" picornavirus sequences into gag p24, protease, reverse transcriptase, and into integrase to fragment the proteins for potentially better immune presentation. We demonstrate that these immunogens are well expressed in vitro and drive similar antibody and T cell responses with or without cleavage sequences.
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PMID:A Novel Codon-optimized SIV Gag-pol Immunogen for Gene-based Vaccination. 2655 May 57

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