EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thirty-four cases of eosinophilic granulomas, 18 cases of diffuse histiocytosis-X, 2 cases of Letterer-Siwe-like syndrome with immunodeficiency, 4 cases of malignant histiocytosis and virus associated hemophagocytic syndrome were studied. On paraffin section, S100 protein, lysozyme, alpha-1-anti-trypsin, alpha-1-antichymotrypsin, alpha-2-macroglobulin, Transferrin, Ferritin, peanuts agglutinin, Concanavalin-A, and dolichos biflorus associated antigen were stained by the immunoperoxidase method. In a few fresh materials, T-cell subpopulation by use of monoclonal antibodies (OKT-3, 4, 6, and OK-M1) was examined by the immunoperoxidase method. Two types of Langerhans' cells were found, one is positive for Ferritin and alpha-2-macroglobulin in diffuse histiocytosis-X cells, and another is negative for them in both eosinophilic granulomas. Diffuse histiocytosis-X cell resembled the transformed type of Langerhans cell more than eosinophilic granuloma cells in cellular differentiation. It seemed that the term prolangerhans' cell proliferation disorder might be responsible for it.
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PMID:Immunohistochemical and ultrastructural studies on histiocytosis in children. 330 93

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

The number of complement receptor type 1 (CR1; CD35) on human erythrocytes (E) decreases during normal in vivo aging. Patients with acquired immunodeficiency syndrome (AIDS) have an acquired deficiency of CR1 on E. The possible mechanisms responsible for the loss of CR1 from E include the release of small vesicles from the E membrane and proteolytic cleavage of CR1. When compared to E of normal donors and of asymptomatic human immunodeficiency virus HIV+ subjects, E of patients with AIDS had fewer CR1/E (p < 0.001), but had the same number of two glycosylphosphatidylinositol-anchored proteins, decay-accelerating-factor (DAF) and CD59. When compared to young E, old E separated by density gradients on Percoll had fewer CR1 [six normal subjects, mean loss: 50.4 +/- 4.9 (SEM) %], DAF (34.4 +/- 1.2%) and CD59 (34.5 +/- 2.7%). The loss of CR1 was significantly higher than the loss of DAF and CD59 (p < 0.02). In vitro, ATP depletion of E is responsible for the release of vesicles from the E surface, a reaction that has been called in vitro aging. CR1, DAF and CD59 were lost on ATP-depleted E; however, the loss of CR1 and DAF were identical (six experiments, mean loss of CR1: 28.7 +/- 2.7%, DAF: 26.3 +/- 4.6% and CD59: 20.5 +/- 4%). Thus, the release of vesicles from E cannot explain the specific loss of CR1 in patients with AIDS and would explain only incompletely the loss of CR1 during in vivo aging. In vitro experiments indicated that CR1 was more sensitive to trypsin and papain cleavage than DAF and CD59. Enhanced chemiluminescence Western blotting, using a monoclonal antibody (E11) recognizing fragments of CR1 down to 43 kDa on E exposed to trypsin or papain, indicated that normal E bear fragments of CR1, which are not found on polymorphonuclear leukocytes or on CR1-bearing vesicles in urine. The relative amount of these fragments was increased in patients with AIDS. Taken together these data suggest that the specific loss of CR1 on E in AIDS is due to proteolytic cleavage. The loss of CR1 during in vivo aging also involves proteolytic cleavage, although part of the loss might be explained by other mechanisms including the release of vesicles by E.
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PMID:Proteolytic cleavage of CR1 on human erythrocytes in vivo: evidence for enhanced cleavage in AIDS. 751 Feb 41

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

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

The glycosylation pattern of the external envelope glycoprotein of human immunodeficiency virus type 2 (HIV-2) was studied in dependence on host cells and virus isolates. Strains HIV-2ALT, HIV-2ROD and HIV-2D194, differing in their biological properties and in the amino acid sequences of their env genes, were propagated in MOLT4, HUT78 and U937 cells, in human peripheral blood lymphocytes and monocytes/macrophages in the presence of [6-3H]glucosamine. Radiolabelled viral glycoproteins were isolated from the cell-free supernatants and digested with trypsin. Glycans were sequentially liberated by endo-beta-N-acetylglucosaminidase H and peptide-N4-(N-acetyl-beta-glucosaminyl) asparagine amidase F, and fractionated according to charge and size. Comparison of the oligosaccharide profiles revealed that the envelope glycoproteins of different virus isolates, propagated in the same host cells, yielded very similar glycan patterns, whereas cultivation of an isolate in different host cells resulted in markedly divergent oligosaccharide maps. Variations concerned the proportion of high-mannose-, hybrid- and complex-type substituents, as well as the state of charge and structural parameters of the complex-type species. As a characteristic feature, complex-type glycans of macrophage-derived viral glycoprotein were almost exclusively substituted by lactosamine repeats. Hence, glycosylation of the HIV-2 external envelope glycoprotein seems to be primarily governed by host cell-specific factors rather than by the amino acid sequence of the corresponding polypeptide backbone.
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PMID:Oligosaccharide profiles of HIV-2 external envelope glycoprotein: dependence on host cells and virus isolates. 782 9

A processing protease for the human immunodeficiency virus type I (HIV-I) envelope glycoprotein gp160 precursor has been purified to homogeneity from the post-nuclear membrane fraction of a human T4+ lymphocyte clone. Most of the processing activity was found to be present in the fractions of endoplasmic reticulum and Golgi apparatus of the cells. The purified enzyme has a monomeric structure with a molecular mass of 26 +/- 3 kDa, as judged by gel-permeation liquid chromatography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing and nonreducing conditions. The purified enzyme converted gp160 to gp120 and gp41, showing a pH optimum of 6.5-7.0. Direct amino acid sequencing of the amino terminus of the product gp41 revealed that the cleavage site of gp160 was between Arg511 and Ala512. The enzyme activity was inhibited by trypsin-type protease inhibitors, but was not affected by CaCl2, MgCl2 or chelating agents. The properties of the purified enzyme are clearly distinct from those of processing proteases reported previously. Although the significance of the enzyme in vivo is not currently certain, judging from its cleavage specificity and subcellular localization, this endopeptidase appears to be a processing enzyme for the human immunodeficiency virus type I gp160 precursor protein in human T cells.
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PMID:Processing protease for gp160 human immunodeficiency virus type I envelope glycoprotein precursor in human T4+ lymphocytes. Purification and characterization. 809 9

Using immunofluorescence microscopy we found that gp120 binds to the surface of rat dorsal root ganglia neurons and human neuroblastoma cells but not to rat fibroblasts or glial cells. The binding of gp120 to neurons was eliminated by pretreatment with trypsin, which removes cell-surface proteins, but not with chloroform: methanol, which removes glycolipids. As control, neuronal staining by antisulfatide antibodies was eliminated by pretreatment with chloroform: methanol but not with trypsin. The gp120 binding to neurons was also inhibited by the mouse monoclonal antibody 01, which binds to galactocerebroside and cross-reactive glycoproteins. These studies suggest that the receptor for gp120 on the surface of the dorsal root ganglia neurons is a glycoprotein. This interaction may mediate the effects of human immunodeficiency virus type 1 in sensory neuropathy.
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PMID:The gp120 glycoprotein of human immunodeficiency virus type 1 binds to sensory ganglion neurons. 825 May 36

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