UNIPROT:O95477 - FACTA Search

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Query: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

trans-Sialidase isolated from trypomastigote forms of Trypanosoma cruzi, the protozoan parasite that causes Chagas' disease, is multimeric and heterogeneous in size. We show here that limited proteolysis of tans-sialidase with papain yields a single monomeric polypeptide chain of 70 kDa that conserves full enzymatic activity on soluble and membrane-bound substrates. The papain fragment lacks most of the 12-amino acid repeats of the carboxyl-terminal domain that comprises about 50% of the native trans-sialidase. When injected into rabbits, the papain-generated fragment induces antibodies that inhibit trans-sialidase activity and trypomastigote sialylation. The repeats are also not required for the stability of the enzyme or for the correct folding during the biosynthesis in Escherichia coli, but seem essential for trans-sialidase oligomerization. We conclude that trans-sialidase is composed of two structurally and functionally independent domains.
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PMID:A proteolytic fragment of Trypanosoma cruzi trans-sialidase lacking the carboxyl-terminal domain is active, monomeric, and generates antibodies that inhibit enzymatic activity. 813 17

Endopeptidase-24.18 (E-24.18; EC 3.4.24.18) is a metallopeptidase of the astacin family and is highly expressed in kidney brush-border membranes of rodents. Rat E-24.18 consists of two disulphide-linked alpha/beta dimers [(alpha/beta)2]. In order to investigate the mechanisms of assembly and the importance of each subunit in the enzymic process, the cloned cDNAs for the rat alpha and beta subunits were transiently expressed either alone or together in COS-1 cells. Immunoblotting of cell extracts and spent culture media showed that, when expressed alone, the alpha subunit is secreted, whereas the beta subunit is membrane-bound. In alpha/beta-transfected cells, the alpha subunit remained membrane-bound, but could be released from the cell surface after papain treatment or after incubation with 10 mM dithiothreitol. Furthermore, mutants of the alpha subunit in which the putative C-terminal anchor domain was deleted could still form cell-associated alpha/beta dimers. These results are consistent with a topological model of E-24.18 in which the beta subunit is anchored in the plasma membrane and the alpha subunit is retained at the cell surface through disulphide bridge(s) with the beta subunit. Both the alpha and beta recombinant subunits expressed in COS-1 cells showed little azocasein-degrading activity. However, activity of either individual subunits of alpha/beta dimers was increased after mild trypsin digestion, suggesting that in COS-1 cells the enzymes are synthesized as zymogens. Finally, inactivation of the alpha subunit by site-directed mutagenesis of Glu-157, which is believed to play a role in catalysis, showed that both subunits participate in the enzymic activity of the heterodimer.
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PMID:Expression of rat endopeptidase-24.18 in COS-1 cells: membrane topology and activity. 819 48

The availability of soluble forms of T-cell antigen receptors (sTCR) should be of great use in the detailed characterization of their interactions with ligands, for the generation of anti-TCR monoclonal antibodies (mAb), and for the eventual determination of their three-dimensional structures by x-ray crystallography. Here, we show that efficient secretion of nonchimeric disulfide-linked human gamma delta TCR could be achieved by simply introducing translational termination codons upstream from the sequences encoding TCR chain transmembrane regions. This recombinant protein appeared to be correctly folded, as judged by its reactivity with a panel of anti-gamma and anti-delta mAbs, and proved to be a powerful immunogen, allowing generation of mAb that are able to recognize both soluble- and membrane-bound gamma delta TCR. While variable and constant domains of gamma delta sTCR seem to be folded into compact conformations, the extreme sensitivity of its interchain disulfide bridge to digestion with papain suggests that sTCR C-terminal portions are in a more extended configuration than the corresponding region in immunoglobulins. Finally, the gamma delta heterodimer remains stable even after removal of the interchain disulfide link, suggesting the existence of strong noncovalent forces holding the two chains together.
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PMID:Secretion of disulfide-linked human T-cell receptor gamma delta heterodimers. 834 Mar 74

The structure and location of a membrane-bound metallo-endopeptidase, previously purified from rat kidney [Yamaguchi et al. (1991) Eur. J. Biochem. 200, 563-571], were examined by immunochemical and immunohistochemical methods with a rabbit polyclonal antibody against the purified enzyme. On treatment with endoglycosidase F, the subunit of the purified enzyme (molecular mass = 88 kDa) was converted to a smaller form (78.5 kDa), indicating that the enzyme contained at least 11% N-linked carbohydrate. Treatment of kidney membranes with papain resulted in release of the enzyme, as shown by Western blotting analysis of the solubilized fraction. Immunoassays of rat tissues showed that only the kidney, and small and large intestine expressed significant amounts of the antigen. Moreover, immunohistochemical studies showed that the antigen was confined to the luminal surfaces of the proximal renal tubules and the intestinal villi. Thus, like another kidney membrane metallo-endopeptidase, meprin [Kounnas et al. (1991) J. Biol. Chem. 266, 17350-17357], the purified enzyme is shown to be a glycoprotein that is probably anchored in the plasma membrane, and located in the luminal surface of microvillar membranes of the kidney and intestine. These results indicate that our enzyme and meprin have clear structural and topological similarities.
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PMID:A membrane-bound metallo-endopeptidase from rat kidney: its immunological characterization. 848 2

Digestion of crude membrane preparations with papain releases the extracellular portion of major histocompatibility complex (MHC) class I molecules. MHC class I molecules are integral membrane glycoprotein complexes formed by the noncovalent association of 2 invariant molecules, the heavy chain and the beta2-microglobulin (beta2-m), to a wide array of peptides. The cleaved soluble moiety retains the antigenic properties of the intact membrane-bound complex. Here we show that MHC class I digestion may be carried out on living cells, and we quantitate the surface expression of MHC complexes by a combined cytometric/high performance liquid chromatographic (HPLC) approach. Papain digestion results in time- and dose-dependent disappearance of membrane MHC-associated-fluorescence as detected by FACS analysis with MHC-specific monoclonal antibodies (mAbs). beta2-m and peptides became detectable by HPLC analysis and western blotting in the digestion buffer and were quantitated by comparison with purified standards. The cytometric assessment of the digestion allows one to simultaneously monitor efficacy and toxicity of the treatment. The procedure we describe allows to selectively retrieve by affinity chromatography MHC from the cell membrane, avoiding any contamination due to intracellular, "immature" MHC molecules.
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PMID:Quantitative cytometry of MHC class I digestion from living cells. 900 May 88

We have investigated the metabolism of leukotriene C4 (LTC4) in gamma-glutamyl transpeptidase (GGT)-deficient mice (Lieberman, M. W., Wiseman, A. L., Shi, Z-Z., Carter, B. Z., Barrios, R., Ou, C-N., Chevez-Barrios, P., Wang, Y., Habib, G. M., Goodman, J. C., Huang, S. L., Lebovitz, R. M., and Matzuk, M. M. (1996) Proc. Natl. Acad. Sci. U. S. A. 93, 7923-7926) and have found substantial conversion of LTC4 to leukotriene D4 by high performance liquid chromatography and continuous flow fast atom bombardment-tandem mass spectrometric analyses. LTC4-converting activity has a tissue distribution different from GGT with highest activity in spleen followed by small intestine, kidney, and pancreas and lower activity in liver and lung. The activity is membrane-bound and is inhibited by acivicin, a known inhibitor of GGT. The enzyme was partially purified from the small intestine of GGT-deficient mice by papain treatment and gel filtration chromatography. The partially purified fragment released by papain has an apparent molecular mass of 65-70 kDa and the same substrate specificity as the tissue homogenate. In addition to LTC4, S-decyl-GSH is also cleaved. GSH itself, oxidized GSH, and the synthetic substrates used to analyze GGT activity (gamma-glutamyl-p-nitroanilide and gamma-glutamyl-4-methoxy-2-naphthylamide) are not substrates for this newly discovered enzyme. These data demonstrate that in addition to GGT at least one other enzyme cleaves LTC4 in mice. To reflect this enzyme's preferred substrate, we suggest that it be named gamma-glutamyl leukotrienase.
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PMID:Metabolism of leukotriene C4 in gamma-glutamyl transpeptidase-deficient mice. 913 74

Aldehyde reductase (EC 1.1.1.2) has been regarded so far as an exclusively cytosolic enzyme. The present investigation shows that mitochondria of rat liver, kidney cortex and, tentatively, heart also contain an enzyme catalyzing oxidation of NADPH by aldehydes, p-nitrobenzaldehyde, methylglyoxal and glyceraldehyde. Activity of the mitochondrial enzyme can only be measured after the organelles are disrupted by sonication or solubilized with nonionic detergents. Mitochondrial aldehyde reductase activity contributed to about 4.6% and 2.5% of the total cellular activity in liver and kidney cortex, respectively. However, the specific activity in liver mitochondria was about one third and in kidney cortex mitochondria one tenth of that in the cytosol of the corresponding organ. The mitochondrial enzyme resembled the cytosolic one by its absolute specificity towards NADPH as the electron donor, a similar profile of aldehydic electron acceptors and identical Km values. Mitochondrial aldehyde reductase differed from the cytosolic enzyme by low sensitivity to known inhibitors of cytosolic aldehyde reductase, AL-1576, AL-4114 and ONO-2235. In liver, about 60% of the mitochondrial activity was tightly bound to the membranes whereas about 40% was present in the mitochondrial matrix. The membrane-bound activity was inactivated by digestion of mitoplasts with trypsin, alpha-chymotrypsin or papain, thus pointing to exposition of the substrate-binding site at the external surface of the inner membrane. On the other hand, latency of the enzyme in intact mitochondria indicates that the NADPH-binding site is located at the inner surface. These data provide the first direct evidence for the existence of aldehyde reductase in mitochondria of some rat tissues.
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PMID:Mitochondrial aldehyde reductase: identification and characterization in rat liver and kidney cortex. 969 60

The structure of thylakoid membrane-bound chloroplast coupling factor CF1 was studied by limited proteolysis followed by sodium dodecylsulfate polyacrylamide gel electrophoresis and N-terminal sequence analysis. The N-terminal fragment of the alpha-subunit was shown to have an exposed area including the peptide bond R21-E22. The cleavage of this peptide bond caused the alphaK24-V25 bond to be exposed to the outside. In the N-terminal fragment of the beta-subunit, the L14-E15 bond was identified and found to be subject to trypsinolysis. Also, the alphaR140-S141, alphaG160-R161, and betaG102-G103 bonds were accessible to the proteolytic attack. In general, the beta-subunit of membrane-bound CF1 is more sensitive to proteolysis than that of solubilized CF1. The products of proteolysis of the alpha-subunit did not contain the polypeptides typical of the reaction of cleavage of the alphaE17-G18 and alphaE22-V23 bonds in isolated CF1. These results suggest a significant structural difference between soluble and membrane-bound CF1. A number of peptide bonds, alphaG160-R161 in particular, were shown to be shielded from proteolytic attack by papain in illuminated thylakoid membranes, probably as a result of membrane energization. In contrast, the light-induced reduction of the gamma-subunit caused an increase in the accessibility of some peptide bonds to this protease, including the alphaG160-R161 bond.
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PMID:Study of the structure of the thylakoid membrane-bound chloroplast coupling factor CF1. 1052 16

Free radicals have been suggested to be widely implicated as the species responsible for harmful biological processes, such as aging, carcinogenesis and numerous other diseases. The mechanism of biological damage produced in such processes has been investigated in a wide variety of systems, including studies on proteins, enzymes, nucleic acids and carbohydrates. In the present study we selected an ascorbic acid-transition-metal ion (ASA-Cu(2+)) system in order to understand the mechanism of soluble and membrane-bound enzyme inactivation by generating free radicals. Papain, a thiol protease, was immobilized on an immobilized-metal-ion carrier and used as a model to examine the inactivation behaviour of membrane-bound enzymes. A comparison was made between the inactivation of soluble and immobilized papain by free radicals, and the potential of different radical scavengers to prevent the inactivation of enzyme was examined.
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PMID:Studies on the inactivation of soluble and immobilized papain by the ascorbic acid-Cu2+ system: a model to propose the effect of free radicals on membrane-bound enzymes in vivo. 1173 Apr 89

Cysteine proteases represent a broad class of proteolytic enzymes widely distributed among living organisms. Although well known as typical lysosomal enzymes, cysteine proteases are actually recognized as multi-function enzymes, being involved in antigen processing and presentation, in membrane-bound protein cleavage, as well as in degradation of the cellular matrix and in processes of tissue remodeling. Very recently, it has been shown that the NO(-donor)-mediated chemical modification of the Cys catalytic residue of cysteine proteases, including Coxsackievirus and Rhinovirus cysteine proteases, cruzain, Leishmania infantum cysteine protease, falcipain, papain, as well as mammalian caspases, cathepsins and calpain, blocks the enzyme activity in vitro and in vivo. Here, inhibition of representative cysteine proteases by NO(-donors) is reviewed.
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PMID:Inhibition of cysteine protease activity by NO-donors. 1237 21

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