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

Female Aedes aegypti that were given a blood meal by enema deposited yolk in their oocytes and synthesized trypsinlike enzymes in their midgut. When females were given an enema of Aea-TMOF (Trypsin Modulating Oostatic Factor) (NH2-YDPAPPPPPP-COOH) and blood both egg development and trypsin biosynthesis were inhibited. Similar results were observed if TMOF was mixed with the blood meal and fed to female mosquitoes through a membrane. Renin inhibitor (NH2-PHPFHFFVYK-COOH) or poly proline given by enema with the blood meal did not affect egg development or trypsin biosynthesis. Feeding of TMOF analogs P1 (NH2-YDPAP-COOH) or P4 (NH2-YDPAPPPP-COOH) inhibited trypsin biosynthesis in the midgut. Injecting or giving an enema of an amidated peptide (NH2-WRPGPPPPPP-CONH2) of HIV-2 X-ORF protein also inhibited egg development and trypsin biosynthesis in the mosquito gut. When [3H]TMOF was purified by high performance liquid chromatography (HPLC) and fed with the blood meal through a membrane to female mosquitoes, [3H]TMOF outside the gut increased linearly for the first 24 h and 28% of the hormone was found outside the gut at 72 h. These results suggest that TMOF and its active analogs traverse the gut epithelial cells into the hemolymph, bind TMOF gut receptor(s) and modulate trypsin biosynthesis.
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PMID:Feeding the mosquito Aedes aegypti with TMOF and its analogs; effect on trypsin biosynthesis and egg development. 748 Aug 77

We recently purified the calcium-independent processing protease named viral envelope glycoprotein maturase (VEM), that converts human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein precursor gp160 to gp120 and gp41, from the human CD4+ T cell line, Molt-4 clone 8 [Kido, H., Kamoshita, K., Fukutomi, A., and Katunuma, N. (1993) J. Biol. Chem. 268, 13406-13413]. In this report, we deal with the inhibitor specificity and calcium requirement for intracellular gp160 processing in cultured HeLa cells and human CD4+ lymphocytes. Processing of gp160 in these cells infected with recombinant vaccinia virus encoding the gp160 gene was not affected by intracellular calcium depletion induced by the calcium ionophore A23187 and EGTA or by intracellular calcium administration. Processing of gp160 by the purified VEM in vitro was not inhibited by EDTA, EGTA, or the metallo-protease inhibitor phosphoramidon, but was specifically inhibited by a substrate analog, decanoyl-RVKR-chloromethylketone, and the trypsin-type protease inhibitors aprotinin, HI-30, and diisopropyl fluorophosphate (DFP). It was also inhibited by E-64 and thiol reagents. But intracellular gp160 processing was inhibited only by permeable, low molecular mass inhibitors of VEM, such as DFP, E-64, and thiol reagents. Syncytium formation induced by cell surface gp120 was also inhibited by permeable inhibitors of VEM. Taken together, our results indicate that calcium ions may not be essential for intracellular gp160 processing and so HIV-1 gp160 induced by recombinant vaccinia virus may be processed mainly by a protease(s) that does not require calcium ions, such as VEM in these cells.
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PMID:Calcium requirement and inhibitor spectrum for intracellular HIV type 1 gp160 processing in cultured HeLa cells and CD4+ lymphocytes: similarity to those of viral envelope glycoprotein maturase. 749 Feb 67

Most human immunodeficiency virus type 1 (HIV-1) infections involve sexual contact and virus passage across mucosal surfaces. While Langerhans cells (LCs) and dendritic cells (DCs) have been implicated in mucosal infection, their role is undefined. Here we demonstrate that acutely HIV-1-infected LCs and DCs effectively transmit virus to uninfected, activated T cells. Cocultivation of these cells results in massive virus production that requires a short cell-cell contact; as little as 30 min contact time is sufficient for HIV-1-pulsed DCs to infect their target T cells. Furthermore, surface-bound virus inactivation by trypsin does not significantly decrease the efficiency of virus transmission by LC/DCs, suggesting rapid internalization of virus. This effective virus transfer by infected LCs and blood-derived DCs requires prior activation of T cells. Surprisingly, cocultivation of acutely infected T cells with uninfected, activated target T cells results only in low virus production, even with T cell-tropic virus. We conclude that LCs and DCs are not only important targets of HIV-1 infection, but may also play a key role in the early dissemination of virus to T cells they encounter in skin or lymphoid tissue.
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PMID:Acutely infected Langerhans cells are more efficient than T cells in disseminating HIV type 1 to activated T cells following a short cell-cell contact. 749 34

We have developed a new protein immunoassay method which uses antibodies raised against synthetic peptides. These synthetic peptides are selected to correspond to fragments of the protein that can be obtained by proteolytic treatment of the protein by trypsin. Just before assay, biological samples are treated with trypsin to liberate the fragments which bind to the anti-peptide antibodies with high affinity. The exact specificity of the assay is predetermined by the amino acid sequence of the fragment which may be either conserved within a family of antigens or, conversely, entirely specific for a particular protein. This method has been successfully employed in the development of an immunoassay for HIV P24 antigen. In that case, peptides were selected that were strongly conserved among the different HIV-1 and HIV-2 strains. This methodology has permitted the development of a sensitive immunoassay with a broad specificity despite many amino acid variations between HIV strains. The methodology could be extended to other protein antigens.
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PMID:A novel protein immunoassay with predetermined specificity using monoclonal antibodies against tryptic fragments: application to HIV P24 antigen. 766 92

The intrinsic fluorescence of tyrosine increases by a factor of approximately two when the carboxy group is liberated from a peptide bond by hydrolysis. The increase in fluorescence provides a novel way to monitor the hydrolysis of native tyrosine peptides that contain only proteinogenic amino acids. Thus, for example, the hydrolysis by HIV-1 proteinase of a heptapeptide viral protein fragment gag129-135, Ser-Gln-Asn-Tyr-Pro-Ile-Val, was followed continuously at excitation and emission wavelengths 275 and 305 nm. The fluorescence increase is magnified by at least a factor of a thousand when a resonance energy quencher, such as paranitrophenylalanine, is in the vicinity. For example, the peptide Lys-Ala-Arg-Val-Tyr-Phe(p-NO2)-Glu-Ala-Nle-NH2 [Richards et al. (1990) J. Biol. Chem. 265, 7733], widely used for spectrophotometric assays of the HIV-1 proteinase, yields a substrate:product fluorescence ratio greater than 1:1000. Tyrosine-containing substrates of pepsin and trypsin showed similar behavior. The detection limit of the present method is at least one order of magnitude lower than absorbance assays of p-nitrophenylalanine peptides.
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PMID:Increase in fluorescence upon the hydrolysis of tyrosine peptides: application to proteinase assays. 766 86

We have utilized UV-induced cross-linking of [methyl-3H]dTTP to identify the nucleotide binding site on heterodimeric HIV-1 reverse transcriptase (RT). RT was derivatized by irradiating a solution containing [methyl-3H]dTTP and purified recombinant RT for 10 min. The UV-induced cross-linking reaction between dTTP and RT is linear with time of UV exposure up to 10 min, and it has been determined previously that dTTP cross-linking is half-maximal at 90 microM [Cheng, N., Painter, G. R., & Furmann, P.A. (1991) Biochem. Biophys. Res. Commun. 174, 785-789]. Under these reaction conditions, only the 66-kDa subunit of the 66-kDa/51-kDa RT heterodimer was labeled with dTTP. The [methyl-3H]dTTP-labeled RT was fragmented with trypsin and endoproteinase Asp-N, and peptides were purified on reversed phase HPLC. The peptide covalently linked to [methyl-3H]dTTP was subjected to amino acid sequence analysis. The sequencing data localized the nucleotide binding site of RT to Lys-73 in the vicinity of several mutation sites linked to antiviral drug resistance. Since most effective anti-AIDS compounds are inhibitors of RT, information about its dNTP binding site may make it possible to understand the basis for the antiviral activity of nucleoside analogs such as AZT, ddI, and ddC. This information may also be useful for a more rationally based design of anti-HIV agents.
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PMID:Identification of the nucleotide binding site of HIV-1 reverse transcriptase using dTTP as a photoaffinity label. 768 65

Proteolytic processing of the human immunodeficiency virus type 1 (HIV-1) envelope (Env) precursor glycoprotein (gp160) to produce the mature gp120 and gp41 proteins is required for virus infection and virus-induced cell fusion. It has also been suggested that cleavage of gp120 at the immunodominant V3 loop region is required for virus-to-cell and cell-to-cell fusion. In this investigation we have studied the proteolytic processing of the HIV-1 Env in cells of various origins (human, monkey, and mouse) infected with a vaccinia virus recombinant expressing the entire gp160 protein (VV-env-1). We have observed that in murine Ltk(-) cells, in addition to the proteolytic cleavage of gp160 at the gp120/gp41 site, there is also extensive intracellular proteolytic processing of gp160 at the V3 loop and at a novel site located at the C terminus of gp41. Similar proteolytic processing of the Env precursor was observed after treatment of extracts of VV-env-1-infected monkey cells with thrombin, a trypsin-like protease that has been shown to cleave the gp120 at the V3 loop. Our findings suggest that murine Ltk(-) cells could be a good model system for structural studies of Env with different HIV isolates and in searches for proteinase inhibitors that could prevent HIV-1 infection of susceptible cells by blocking proteolysis of Env.
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PMID:Enhanced proteolytic processing of the human immunodeficiency virus type 1 envelope protein in murine Ltk(-) cells. 773 99

Poliovirus RNA polymerase (3Dpol) was cross-linked to [32P]ribonucleoside triphosphates (NTPs) by reduction of oxidized NTP-protein complexes. Cross-linked complexes were digested with cyanogen bromide, and resulting peptides were fractionated by reverse-phase HPLC. 32P-Labeled peptides were purified by secondary HPLC fractionation and/or additional digestion with endoproteinases Glu-C, TPCK-trypsin, or Asp-N followed by another HPLC fractionation. N-Terminal sequences of the major [32P]-peptides were determined, and approximate sizes of these peptides were obtained by SDS-polyacrylamide gel electrophoresis. Two major NTP binding sites in 3Dpol were found. One site was between Asp-266 and Met-286; possible binding residues in this fragment were Lys-276, Lys-278, or Lys-283. A second binding site was between Ala-57 and Met-74 with Lys-61 or Lys-66 as possible binding residues. Alignment of these regions on the known structure of HIV-1 reverse transcriptase allowed us to predict the position of the downstream nucleotide binding site in the conserved "fingers" subdomain present near the active site cleft of both RNA and DNA polymerases. The N-terminal nucleotide binding site is not contained within a region that is conserved among other polymerases.
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PMID:Identification of nucleotide binding sites in the poliovirus RNA polymerase. 775 55

The human immunodeficiency virus, type 1 (HIV-1) genome encodes a 15-kDa accessory gene product, Vpr, that is essential for virus replication in primary monocytes/macrophages. Being present in the virion, Vpr is believed to function in the early phases of HIV-1 replication, including nuclear migration of the pre-integration complex and/or transcription of the provirus genome. By gel filtration analysis of highly purified Vpr protein and its mutants, we demonstrate that HIV-1 Vpr exists as an oligomer. The N-terminal domain of Vpr (amino acids (aa) 1-42) is sufficient for oligomerization; however, deletion of aa 36-76 from Vpr disrupts oligomerization, suggesting that aa 36-42 are critical for Vpr oligomerization. As a result of Vpr oligomerization, basic aa residues within Vpr aa 1-73 are highly resistant to trypsin digestion, while those within Vpr aa 74-96 are easily accessible. Mutations within the leucine-/isoleucine-rich domain (aa 60-81), which was previously identified to be involved in Vpr interaction with a host cellular protein, rendered Arg62 more susceptible to trypsin digestion. Thus, the Vpr oligomeric structure must be extended into this domain. These results suggest a novel feature of HIV-1 Vpr that may be important for its functions.
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PMID:Biochemical mechanism of HIV-1 Vpr function. Oligomerization mediated by the N-terminal domain. 779 8

Tryptase TL2 purified from MOLT-4 human T cells binds to the envelope protein of human immunodeficiency virus type 1 (HIV-1). Tryptase TL2 and CD26 antigen are supposed to play roles in HIV-1 entry into cells. Although CD4 is a principal receptor for HIV-1, brain cells expressing the CD4 antigen are not permissive to HIV-1 strains infectious to monocyte or T-cell lines. We examined whether the non-permissiveness of the brain-derived cells to standard HIV-1 strains could be explained by a lack of tryptase TL2 or CD26. Western blots showed that the amounts of tryptase TL2 expressed in cell lysates prepared from the brain-derived cells were similar to those prepared from various cells susceptible to HIV-1 strains. Furthermore, flow cytometry revealed the presence of the CD26 antigen on the cell surface of many types of cells. The resistance of the brain-derived cells to standard HIV-1 strains is not due to a lack of tryptase TL2 or CD26.
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PMID:Detection of tryptase TL2 and CD26 antigen in brain-derived cells non-permissive to T-cell line-tropic human immunodeficiency virus type 1. 782 28

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