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)

The surface antigens of Giardia lamblia differ. To determine whether the unique surface antigens found in variants and isolates could differentially protect the parasite from digestion by intestinal protease, G. lamblia clones WB-2X (WB), GS/M-H7 (GS/M), and B6, each of which expresses a unique surface variant antigen, were exposed to alpha-chymotrypsin and trypsin at concentrations up to 20 mg/ml in culture medium. The number of surviving trophozoites and morphologic changes were assessed over time. After 24 h, there was a significant decrease in the number of surviving trophozoites of WB (80.5 and 94.2% for trypsin and alpha-chymotrypsin treatments, respectively, compared with controls) and B6 (78.9 and 95.5% for trypsin and alpha-chymotrypsin treatments, respectively, compared with controls) at 10 mg of enzyme per ml compared with culture medium alone. Cytotoxicity was prevented by the presence of soybean trypsin inhibitor, indicating the effects were due to protease activity. In contrast, there was no significant cytotoxicity after exposure of GS/M to either enzyme at the same enzyme concentration. After exposure to alpha-chymotrypsin, susceptible G. lamblia became rounded and then lysed, but after exposure to trypsin, G. lamblia appeared plastered onto the surface of the well and was intertwined and surrounded by finely granular material. Effects were concentration and time dependent; at least 6 h of treatment was required to observe changes 12 to 18 h later. Trophozoites surviving alpha-chymotrypsin or trypsin exposure became stably resistant to protease treatment. In vitro, the variant surface antigen of GS/M, but not those of WB or B6, resisted digestion by trypsin or alpha-chymotrypsin, suggesting that the variant surface antigens impart susceptibility or resistance to digestion. The initial surface variant antigens of WB and B6 were replaced in resistant cultures. Trophozoites differ in their ability to survive after exposure to intestinal proteases, which may enable certain G. lamblia isolates or isolates possessing certain surface variant antigens to survive in the small intestine.
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PMID:Isolate and epitope variability in susceptibility of Giardia lamblia to intestinal proteases. 170 19

During Plasmodium falciparum merozoite invasion into human and mouse erythrocytes, a 110-kDa rhoptry protein is secreted from the organelle into the erythrocyte membrane. In the present study our interest was to examine the interaction of rhoptry proteins of P. falciparum with the erythrocyte membrane. It was observed that the complex of rhoptry proteins of 140/130/110 kDa bind directly to a trypsin sensitive site on intact mouse erythrocytes, and not human, saimiri, or other erythrocytes. However, when erythrocytes were disrupted by hypotonic lysis, rhoptry proteins of 140/130/110 kDa were found to bind to membranes and inside-out vesicles prepared from human, mouse, saimiri, rhesus, rat, and rabbit erythrocytes. A binding site on the cytoplasmic face of the erythrocyte membrane suggests that the rhoptry proteins may be translocated across the lipid bilayer during merozoite invasion. Furthermore, pretreatment of human erythrocytes with a specific peptide derived from MSA-1, the major P. falciparum merozoite surface antigen of MW 190,000-200,000, induced binding of the 140/130/110-kDa complex. The rhoptry proteins bound equally to normal human erythrocytes and erythrocytes treated with neuraminidase, trypsin, and chymotrypsin indicating the binding site was independent of glycophorin and other major surface proteins. The rhoptry protein complex also bound specifically to liposomes prepared from different types of phospholipids. Liposomes containing PE effectively block binding of the rhoptry proteins to mouse cells, suggesting that there are two binding sites on the mouse membrane for the 140/130/110-kDa complex, one protein and a second, possibly lipid in nature. The results of this study suggest that the 140/130/110 kDa protein complex may interact directly with sites in the lipid bilayer of the erythrocyte membrane.
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PMID:Interaction of the 140/130/110 kDa rhoptry protein complex of Plasmodium falciparum with the erythrocyte membrane and liposomes. 188 71

Lymphokine activated killer (LAK) cells mediate the lysis of a variety of histologically distinct tumor targets. We investigated the nature and diversity of the structures involved in the recognition phenomenon by evaluating the effects of treating effector and target cells with trypsin and chymotrypsin, enzymes that disrupt surface protein molecules. Chymotrypsin and trypsin treatment of B16 target cells, a murine melanoma cell line, significantly abolished killing by LAK cells. Alternatively, neither of these treatments in P815 cells, a murine mastocytoma cell line, affected killing by LAK cells. Moreover, we found a differential effect of both these enzymes on YAC-1 cells, a murine leukemia cell line, with trypsin having a less inhibitory effect on cytolysis than chymotrypsin. The nature of the LAK cell receptor that presumably plays a role in binding target antigen was also investigated. Treatment of LAK cells with chymotrypsin significantly reduced lysis of the B16 and YAC-1 target cell types. However, trypsin treatment of the effectors only inhibited killing of the B16 tumor cell line. Cytotoxicity exerted against YAC-1 remained unaltered upon trypsinization of LAK cells. These cumulative results indicate heterogeneity of both the receptors on the LAK cells and the surface antigen molecules recognized on these targets. The use of YAC-1 as a target provided us with a tool to compare the LAK with the natural killer (NK) systems. The overall effect of proteolytic enzyme treatment in reducing cell lysis was more pronounced in the NK than in the LAK system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Heterogeneity of cell surface structures involved in cytotoxicity mediated by lymphokine activated killer cells. 218 Oct 73

A monoclonal antibody (MAb), designated 4H12, was selected for reactivity to a surface antigen on PYS-2 teratocarcinoma cells. 4H12 was the product of a fusion of lymphoid cells of a non-immunized pregnant C57BL/6 mouse to NS-1 myeloma cells. Initial studies utilizing immunohistochemistry revealed that MAb 4H12 bound to an antigen found on cells in the decidua basalis of 7-, 8- and 10-day pregnant mice. Antigen-positive cells of 11--19-day pregnant mice were also found predominantly in the decidua. A few antigen-positive cells were found in the labyrinth of the placenta and up against Reichert's membrane. Antigen-positive cells were morphologically and spatially distinct, oval to round with large periodic acid Schiff positive granules. Indirect immunofluorescent (IIF) labeling of decidual cultures showed antigen on the surface of cells that were small, oval to round and adherent. The antigen recognized by MAb 4H12 was removed from tissue sections with trypsin and protease and therefore is suggested to be a protein. We conclude that MAb 4H12 recognizes a surface antigen found on cells historically described as granulated metrial gland (GMG) cells. This MAb should greatly facilitate the further analysis of the life history and function of GMG cells during pregnancy.
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PMID:A monoclonal antibody, 4H12, recognizes a surface antigen found on granulated metrial gland cells in the murine decidua. 221 25

The diagnostically important surface antigen pre-S2 of hepatitis B virus was produced in large amounts in the periplasmic space of Escherichia coli. The DNA fragments (pre-S2) coding the pre-S2 antigen were tandemly duplicated or triplicated and ligated in the same reading frame to a fragment containing the promoter and the signal sequence of the alkaline phosphatase-coding gene (phoA) of E. coli. Further, a DNA fragment (bla) coding mature beta-lactamase was joined to the region coding the C terminus of the pre-S2 repeat to stabilize the gene product. Upon induction of the phoA-(pre-S2)3-bla fusion gene, the fusion protein was produced at up to 30% of the total cellular protein. Fractionation of the cellular components and trypsin accessibility of the product showed that the antigen was secreted in the periplasm and formed inclusion bodies there. The signal sequence of alkaline phosphatase was found to be correctly processed in E. coli.
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PMID:Production and secretion in Escherichia coli of hepatitis B virus pre-S2 antigen as fusion proteins with beta-lactamase. 227 30

The African green monkey kidney-derived Vero cell line expresses a receptor activity for noninfectious hepatitis B surface antigen (HBsAg) particles containing the small S protein. (M.E. Peeples, K. Komai, R. Radek, and M.J. Bankowski, 1987, Virology 160, 135-142). In this report, the binding characteristics, the physiological requirements, and the functions of this receptor are further characterized. The association rate constant (ka) was determined by measuring binding during a short (10-min) incubation period to avoid the complication of dissociation. The results indicated an extremely high affinity binding: ka = 2.0 x 10(10) M-1 min-1. HBsAg particle binding to the Vero cells was also found to be slowly reversible, and dependent on temperature, pH, and Ca2+. After binding to Vero cells. HBsAg particles were quickly internalized as measured by trypsin removal from the cell surface. Once removed from the cell surface by proteolysis, regeneration of receptor activity required protein synthesis, indicating that there is no significant receptor pool within the cell. Receptor activity was also found to recycle to the cell surface after HBsAg particles were internalized.
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PMID:Physiology and function of the vero cell receptor for the hepatitis B virus small S protein. 235 59

A 35 kD major surface antigen of Dirofilaria immitis third-stage larvae was characterized biochemically and immunologically. Living larvae were iodinated by using Iodo-gen, iodosulfanilic acid, lactoperoxidase-glucose oxidase, and Bolton-Hunter reagents. Detergent extracts of larvae labeled by the first three methods showed one major 35 kD component and a number of smaller components of about 6 kD, as analyzed by one-dimensional SDS-PAGE. In contrast, extracts from larvae labeled with the Bolton-Hunter reagent showed multiple bands on gels. The 35kD molecule was shown to be exposed on the larval surface, insofar as it was accessible to trypsin-proteolysis on living radiolabeled larvae. Two-dimensional gel electrophoresis resolved the 35 kD band into two components: a major one with a pI of 3.8, and a minor one of pI 7.3. The lower m.w. bands were resolved into about 12 constituents with pI values from 3.5 to 8.0. Of all these surface molecules, the only one that was antigenic was the 35 kD component. It could be immunoprecipitated with sera from dogs carrying an occult experimental D. immitis infection or with sera from dogs immunized with irradiated third-stage larvae of this parasite. Similarly, sera from rabbits immunized repeatedly with normal unirradiated larvae also precipitated the 35 kD antigen. None of these sera, however, contained detectable antibodies to the surface-labeled low m.w. molecules. Sera from rabbits immunized with D. immitis adult worms and microfilariae precipitated the 35 kD antigen, which is therefore not stage specific. In contrast, sera from dogs experimentally infected with Toxocara canis and Ancylostoma caninum or with Uncinaria stenocephala (a canine hookworm) did not contain antibodies to the 35 kD antigen, but did cross-react with many other D. immitis adult and microfilarial antigens. This molecule may therefore be species specific. Evidence for glycosylation of the 35 kD molecule was not found: it did not bind to peanut, wheat germ, lentil, or Ulex europeus lectins, and its electrophoretic mobility was not altered after treatment with endoglycosidase-F or mild alkali solutions.
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PMID:Biochemical and immunologic characterization of a major surface antigen of Dirofilaria immitis infective larvae. 241 45

We describe a staining technique, using Ponceau S in very mild conditions, by which proteins can be visualized on nitrocellulose replicas without being permanently fixed to the membrane itself, thus allowing subsequent procedures such as immunoblotting or preparative elution of the proteins to be performed. This staining technique can detect 250 to 500 ng protein, which is essentially the same sensitivity seen for Coomassie blue staining of proteins on nitrocellulose. The Ponceau S staining technique was used to locate proteins on nitrocellulose replicas for subsequent in situ radioiodination and trypsin digestion, followed by separation of the resultant digests in two-dimensional peptide analysis. Staining proteins with Ponceau S did not interfere with either the radioiodination or trypsin digestion, as indicated by essentially identical peptide patterns being obtained for the internal protein p26 from equine infectious anemia virus, regardless of whether the digests were prepared from polyacrylamide gel slices or nitrocellulose sections. The combination of preparation of radioiodinated tryptic digests on nitrocellulose and subsequent two-dimensional analysis is sensitive enough to detect peptide additions and deletions occurring in the surface antigen gp90 recovered from two antigenically distinct strains of equine infectious anemia virus. Thus these procedures provide a relatively simple, inexpensive, and highly reproducible technique for the analysis of as little as 250 nanograms of protein after separation by electrophoresis in polyacrylamide gels.
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PMID:Reversible staining and peptide mapping of proteins transferred to nitrocellulose after separation by sodium dodecylsulfate-polyacrylamide gel electrophoresis. 242 81

A panel of monoclonal antibodies (MoAbs), produced against the murine B16 melanoma, has been used to characterize its phenotypic diversity. Six MoAbs that did not bind to primary cultures of kidney, brain or liver, spleen cells, thymocytes, 3T3 fibroblasts, melanin, or transferrin receptors were selected for further evaluation. Five MoAbs, which recognized surface antigens expressed on parental B16 cells and the B16-F1, B16-F10, B16-F10 FLR, and B16-BL6 sublines, did not appear to cross-react with each other, suggesting that they identified antigenically distinct epitopes. Four MoAbs, designated as IB16-2, IB16-4, IB16-8, and IB16-10, recognized B16 surface antigens that were variably expressed over short periods of time. This variable expression was independent of the cell cycle and was characteristic of four B16 sublines. Two of these MoAbs, both of the IgG2b isotype, fixed rabbit and guinea pig complement and were cytolytic in the presence of rabbit complement. One MoAb, designated IB16-6, recognized a surface antigen consistently expressed on greater than 90% of cells of both the parental tumor and the sublines. This MoAb bound to several murine and one human melanoma cell line, but not to other histopathological types of tumors or normal tissues. The cellular antigen that this antibody recognized was not detected in the cytoplasm, did not modulate in the presence of IB16-6, and was sensitive to trypsin, pronase, alcohols, acetone, and detergents, thereby suggesting that it was a protein. Our data are among the first that directly show the extent of phenotypic diversity of the B16 melanoma and sublines that have been derived from it.
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PMID:Phenotypic diversity of murine B16 melanoma detected by anti-B16 monoclonal antibodies. 243 32

A previously defined immunoglobulin M(kappa) monoclonal antibody reacting with a surface epitope of Mycoplasma hyorhinis is shown in this report to mediate specific, complement-dependent mycoplasmacidal activity. Immunoblot analysis of mycoplasma components and their tryptic cleavage products showed that the epitope recognized was present on a protein with an apparent molecular weight of 23,000 (p23) and on a limit tryptic fragment of this protein with an apparent molecular weight of 18,000 (p18). Both p23 and p18 are shown by Triton X-114 phase fractionation to partition efficiently into the hydrophobic detergent phase. Other antigens bearing epitopes not expressed at the cell surface were present among the numerous hydrophilic proteins found in the aqueous phase. The external orientation and membrane association of the p23 antigen were further established by demonstrating that trypsin treatment of intact mycoplasmas generated the antigenic p18 fragment, which remained tightly associated with the organism. These results localize an epitope responsible for antibody-mediated mycoplasma killing onto a specific, surface-exposed region of an integral membrane protein of this organism. Since the monoclonal antibody used in this study does not bind to the surface of all strains of M. hyorhinis, the epitope identified also defines a structural marker of antigenic surface variation within this species, a feature previously observed during serological classification of the organism. Analysis of the antigenic and structural features of the p23 surface antigen may therefore be useful in establishing mechanisms of surface antigen variation among integral membrane proteins of mycoplasmas that could dictate important antigenic characteristics recognized during chronic disease caused by these agents.
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PMID:Triton X-114 phase fractionation of an integral membrane surface protein mediating monoclonal antibody killing of Mycoplasma hyorhinis. 243 31

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