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)

Skin fibroblasts from patients with inherited adenomatosis of the large bowel (ACR-SF) possess alterations in actin microfilament (MF) organization which serve to distinguish "predisposed" cells from fibroblasts derived from normal individuals (NSF). MF bundle frequency and diameter were considerably reduced in ACR-SF compared to NSF. This deficit in MF density correlated with a 60% decline in cytoskeletal-associated actin half-life. Absence of a well-structured MF network in ACR-SF was reflected in relatively poor cell-to-substrate adhesion (as indicated by increased sensitivity to trypsin release) and extensive membrane ruffling. Unlike NSF, ACR-SF failed to develop well-defined vinculin-containing focal contacts although the cellular content of vinculin was approximately the same in both cell types. The relatively low substrate adhesivity and reduced incidence of adhesive structures (i.e., MF and associated focal contacts) which typify ACR-SF correlated with a sixfold increase in cellular plasminogen activator (PA) activity. This increased protease activity corresponded with a 50-70% reduction in the content of the PA inhibitor-like protein p50 in both the saponin-resistant undersurface matrix and the culture medium. Increased motility and reduced cell-to-substrate adhesion, involving several cellular structural elements, appear to be significant correlates of the "predisposed" phenotype in cultured fibroblasts.
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PMID:Analysis of actin microfilaments and cell-to-substrate adhesive structures in human fibroblasts from individuals genetically predisposed to colonic carcinoma. 207 Aug 20

The role of the actin microfilaments in maintaining the integrity of the monolayer and activating endothelial repair processes is not well understood. This study was designed to characterize the prominent changes in F-actin distribution in endothelial cells that are associated with shape changes in the cells after perturbation of a confluent monolayer. F-actin was localized by using rhodamine phalloidin and fluorescence microscopy. The dense peripheral band (DPB) and vinculin cell-cell junctions were co-localized by using double fluorescence and immunofluorescence microscopy. Thrombin and 12-o-tetradecanoyl-myristyl-13-acetate (TPA) caused loss of the DPB and an increase in the central microfilament bundles, while agents that caused rounding of the cells (including plasmin, trypsin, and chymotrypsin) did not cause loss of the DPB although large gaps were formed between cells. The thrombin and TPA effects were rapid and reversible and were associated with an accompanying loss of vinculin cell-cell plaques. The mechanisms of the effects were not studied. It was postulated that thrombin and TPA were activating endothelial repair processes.
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PMID:Endothelial monolayer integrity. Perturbation of F-actin filaments and the dense peripheral band-vinculin network. 213 94

Several studies of vinculin-binding proteins have described a 190 kDa protein in chicken gizzard smooth muscle which binds radioiodinated vinculin. We have purified and studied the 190 kDa protein from chicken gizzard smooth muscle. By indirect immunofluorescence, an antiserum raised against the 190 kDa protein stains adhesion plaques (focal contacts), ruffling membranes, and fibrillar streaks on the dorsal and ventral surfaces of fibroblasts. Both the binding to vinculin and the location of the protein in fibroblasts are properties shared with talin, a 215 kDa protein in smooth muscle and fibroblasts. Because antisera against talin and the 190 kDa cross-react the relationship of these two proteins has been investigated further. Upon prolonged storage at 4 degrees C, purified talin degrades into a 190 kDa fragment. A 190 kDa fragment is also generated from talin by the Staphylococcus aureus V-8 proteinase and by trypsin. Comparison of partial peptide maps of talin and the 190 kDa protein reveal that the proteins are very similar and when the 190 kDa fragment of talin is compared with the purified 190 kDa protein by partial proteolytic digestion no differences are found in the pattern of peptides generated. In addition, the amount of 190 kDa protein detected in muscle tissues excised from chick embryos can be drastically reduced if proteinase inhibitors are added to the tissue homogenates. We conclude that the purified 190 kDa dalton protein is a proteolytic fragment of talin. Although markedly reduced by proteinase inhibitors, detection of the 190 kDa protein is not completely abolished, suggesting that some talin may already be cleaved within living cells.
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PMID:Purification of a 190 kDa protein from smooth muscle: relationship to talin. 241 80

Protein kinase C was purified from the cytosolic fraction of chicken gizzard by Ca2+ -dependent hydrophobic interaction chromatography, anion-exchange chromatography, and hydrophobic chromatography. The molecular weight was estimated as 61,500 by gel filtration and 80,000 by denaturing gel electrophoresis, indicating that the native enzyme is a monomer. Using the mixed micellar assay, with histone III-S as the substrate, protein kinase C required Ca2+, phospholipid, and diacylglycerol for activity, with half-maximal activation at approximately 5 x 10(-7) M Ca2+ in the presence of L-alpha-phosphatidyl-L-serine and 1,2-diolein. No activation by Ca2+ was observed in the absence of diacylglycerol. Protein kinase C requires free Mg2+, in addition to the MgATP2- substrate, for activity. The Km for ATP was determined to be 20 microM. Activity was sensitive to ionic strength, with half-maximal inhibition at 70 mM NaCl. Using the liposomal assay, phosphorylation of platelet P47 protein and smooth muscle vinculin was more strongly dependent on Ca2+ and lipids than was histone phosphorylation. Partial digestion of protein kinase C with trypsin yielded a constitutively active fragment. A heat-stable inhibitor and three major endogenous protein substrates of protein kinase C were also detected in chicken gizzard smooth muscle.
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PMID:Protein kinase C from chicken gizzard: characterization and detection of an inhibitor and endogenous substrates. 277 30

The pattern of cell substrate interaction, the cell surface composition and the organization of cytoskeletal elements was studied in tumour cell variants of the BSp73 rat adenocarcinoma displaying different metastatic capabilities and cell configuration. The non-metastasizing AS variant cells adhered to the substrate and spread via vinculin-containing focal contacts. These cells also synthesized, secreted and assembled fibronectin at the pericellular area. The metastasizing ASML variant cells adhered to the substrate at a slower rate via thick cytoplasmic protrusions, but were removed from the substrate by trypsin-EDTA slower than the non-metastasizing AS variant cells. The ASML cells also synthesized very low levels of both vinculin and fibronectin, displayed a diffuse pattern of actin and tubulin organization, and were unable to spread on the substrate. Spreading could not be induced in the ASML cells by seeding the cells on an extracellular matrix derived from bovine corneal endothelial cells or on concanavalin A (conA)-coated substrates, or by the addition of db-cAMP to the medium. The metastasizing cells expressed a unique and abundant cell surface glycoprotein of Mr 170 000 which was also shed into the growth medium. The relationships among the adhesive properties, the organization of cell surface components and of the cytoskeleton in the tumour cell variants, and the expression of their metastatic phenotype is discussed.
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PMID:Cell configuration and adhesive properties of metastasizing and non-metastasizing BSp73 rat adenocarcinoma cells. 299 41

The recently described adherens junction-specific 135-kD protein (Volk, T., and B. Geiger, 1984, EMBO (Eur. Mol. Biol. Organ.) J., 3:2249-2260) was localized along cardiac muscle intercalated discs by immunogold labeling of ultrathin frozen sections. Analysis of this labeling indicated that the 135-kD protein, adherens junction-specific cell adhesion molecule (A-CAM), is tightly associated with the plasma membrane unlike vinculin labeling, which was present along the membrane-bound plaques of the fascia adherens. In cultured chick lens cells, A-CAM was associated with Ca2+-dependent junctions that were cleaved upon a decrease of extracellular Ca2+ concentrations to less than or equal to 0.5 mM. In the chelator-separated junction, A-CAM became exposed to exogenously added antibodies or to proteolytic enzymes. Upon addition of trypsin to EGTA-treated cells, A-CAM was cleaved into three major cell-bound antigenic peptides with apparent molecular masses of 78, 60, and 46 kD, suggesting that the extracellular domain of A-CAM has a size greater than or equal to kD. Incubation of electrophoretic gels with 125I-concanavalin A (Con A) indicated that one of the major Con A-binding proteins in chicken lens membranes is a integral of 135-kD glycoprotein that was partially purified on Con A-Sepharose column and identified as A-CAM by immunoblotting. Detergent partitioning assay using Triton X-114 biphasic system was carried out to determine whether A-CAM displays properties of an integral membrane protein. This assay indicated that the intact A-CAM molecule was recovered in the buffer phase but its cell-associated tryptic peptides, which presumably lost a great part of the A-CAM extracellular extension, readily partitioned into the detergent phase. The results obtained in this and in the following paper (Volk, T., and B. Geiger, 1986, J. Cell Biol., 103:1451-1464) strongly suggest that A-CAM is a Ca2+-dependent adherens junction-specific membrane glycoprotein that is involved in intercellular adhesion in these sites.
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PMID:A-CAM: a 135-kD receptor of intercellular adherens junctions. I. Immunoelectron microscopic localization and biochemical studies. 353 54

The importance of cytotoxic T lymphocytes (CTLs) in the autoimmune inflammatory myopathies, especially polymyositis (PM), has been emphasized. We have studied the degradative activity of granzyme A, a cytotoxic molecule with trypsin-like specificity in CTL granules, on several muscle proteins in vitro. Our study reveals that granzyme A hydrolyzes dystrophin, myosin, and nebulin, but not laminin, alpha-actinin, vinculin, and connectin in vitro. Among these proteins, nebulin is more susceptible to proteolysis, followed by dystrophin, myosin heavy chain, and myosin light chains, in that order. This result implies an important role of granzyme A in CTL-mediated muscle fiber damage in PM.
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PMID:Degradative activity of granzyme A on skeletal muscle proteins in vitro: a possible molecular mechanism for muscle fiber damage in polymyositis. 826 27

To further document the interaction of vinculin with the clathrin heavy chain (CHC) which was observed by using gel overlay, co-sedimentation experiments were performed and attempts were made to localize the domains involved on both molecules. The binding properties of proteolytic fragments of vinculin were investigated after cleavage with V8 protease. Neither the isolated globular domain, nor the C-terminal rod domain were able to interact with the CHC. Either the interaction involved the portion of vinculin which links these two domains, or the region of vinculin mediating the interaction was present on one of the two major fragments, but the cleavage itself resulted in conformational changes which abolished the binding. The first hypothesis could be ruled out using alpha-chymotrypsin generated fragments of vinculin, suggesting that the native conformation of vinculin might play an important role. Proteolytic cleavage of CHC with trypsin demonstrated that the interaction with vinculin is mediated by the proximal or distal segment of the CHC. Presence of clathrin light chain (CLC) associated with the CHC did not affect its interaction with vinculin. Vinculin did not interact with the CLC.
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PMID:Interaction of vinculin with the clathrin heavy chain. 827 59

Fibroblasts were derived from dermis and scar of a 47-year-old white man with a recurrent incisional hernia as a result of fractured ribs. The scar was thin and stretched, suggesting a defect in the maturation of granulation tissue. After surgical repair, biopsy specimens of discarded scar and skin were used to generate fibroblast cell lines. Fibroblasts maintained in medium containing 10% fetal bovine serum and antibiotic were studied between their third and eighth passage. By phase contrast microscopy, no structural differences were obvious, but it was noted that to pass scar fibroblasts, a more aggressive trypsin regimen was required. Immunohistologic and Western blot analysis of patient scar fibroblasts showed (1) more a smooth muscle actin within stress fibers, (2) increased expression of the vitronectin integrin receptor alpha(v) (CD 51), and (3) reduced expression of the collagen integrin receptor alpha2 (CD 49b). The expression of vinculin from focal adhesions or a tubulin from microtubules was the same among cell lines. Contractions of scar and dermal fibroblast-populated collagen lattice were compared. At 24 hours, contractions were 69 percent with newborn fibroblasts (normal); 68 percent for patient dermal fibroblasts; and only 48 percent for patient scar fibroblasts. The retarded contraction of scar fibroblast-populated collagen lattice was significant (p > or = 0.002). Myosin ATPase activity, critical for lattice contraction, and cell migration were equivalent among all cell lines. A plausible mechanism for the retardation of scar lattice contraction is disruption of fibroblasts and collagen interactions, for which the attachment of cells to collagen is altered. It is proposed that either the decrease in the expression of collagen integrin receptor alpha2 (CD 49b), an increase in the expression of the vitronectin receptor alpha(v) (CD 51), or a combination of both is responsible for disruption of collagen fibroblast interactions.
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PMID:Differences between scar and dermal cultured fibroblasts derived from a patient with recurrent abdominal incision wound herniation. 1051 24

Vascular smooth muscle cells derived from the rat aorta were cultured on unmodified or F(+) ion-implanted polystyrene (5 x 10(12) or 5 x 10(14) ions/cm(2), energy 150 keV). In 1-day-old cultures, the cells adhered to the modified polystyrene in higher numbers and over larger contact areas. Increased resistance of the cells to trypsin-mediated detachment from the growth support indicated an improved adhesion of cells to the modified polymer at later culture intervals. The cells cultured on ion-modified polymers also were larger and had a higher total protein content. By use of immunocytochemistry, several specific protein species were increased, including the cytoskeletal alpha-actin and vimentin and the plasma membrane-associated vinculin, talin, alpha-v integrins, ICAM-1, and VCAM-1, which account for stronger cell-cell and cell-extracellular matrix adhesion. The lower number of cells found floating in the medium suggests that the spontaneous detachment of cells from the modified polystyrene was lower and that the viability of the adhered cell population was higher. As was shown by the two-parameter flow-cytometric measurements of BrdU incorporation and DNA content, as well as by (3)H-thymidine autoradiography, the cell proliferation on samples modified by the dose of 5 x 10(12) ions/cm(2) was similar to that in controls; and at the dose of 5 x 10(14) ions/cm(2), it tended to be even lower. The cells grown on the polymer implanted with the dose of 5 x 10(12) ions/cm(2) responded to a new artificially created cell-free area in a confluent cell layer by more intense migration whereas at the dose of 5 x 10(14) ions/cm(2), the migration ability of cells was similar to that on the unmodified polymer. The data revealed a higher biocompatibility of ion-implanted polystyrene with vascular smooth muscle cells in culture. There was better adhesion, differentiation, and survival, and there was neither excessive migration nor proliferation.
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PMID:Fluorine ion-implanted polystyrene improves growth and viability of vascular smooth muscle cells in culture. 1060 70

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