Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 calcium-dependent cell-adhesion molecule uvomorulin is a member of the cadherin gene family. Recent studies on the homophilic binding of molecules from neighbouring cells have shown that the amino-terminal part of these proteins plays an important role in the adhesive mechanism. We show here that the epitope for monoclonal antibody DECMA-1, capable of blocking uvomorulin function, is located close to the membrane proximal part of the extracellular domain. To test the effect of structural changes in this membrane proximal region on the adhesive function of uvomorulin, we have studied the cluster of cysteine residues located in the vicinity of the DECMA-1 epitope. Treatment of cells with the reducing agent dithiothreitol (DTT) cleaved the di-sulphide bonds in uvomorulin and affected the adhesive properties of cells. Close cell-cell contacts accompanied by cell flattening and changes in cell shape were blocked by DTT; however, cell aggregation was not inhibited. Consistent with this, uvomorulin became more susceptible in its membrane proximal part to trypsin digestion after treatment with DTT, indicating that conformational changes in this region of the molecule affect the adhesive function. These results suggest that the membrane proximal region of uvomorulin is involved in the adhesive mechanism.
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PMID:A possible new adhesive site in the cell-adhesion molecule uvomorulin. 171 Sep 17

Rat islets of Langerhans are organized as a core of B-cells surrounded by non-B-cells. It is believed that cell type segregation during histogenesis is the result of the differential expression of cell adhesion molecules (CAMs). Since we have previously shown that in contrast to non-B-cells, homotypic adhesion of pancreatic B-cells is dependent on the presence of Ca2+, the possibility exists that Ca(2+)-dependent CAMs (cadherins) might be in part responsible for islet topography. We now demonstrate that after selective removal of Ca(2+)-independent CAMs from the surface of islet cells by mild trypsin/Ca2+ digestion (TC-treatment), there is no significant difference in homotypic adhesion between sorted B- and non-B-cells in the presence of calcium, suggesting an identical deployment of cadherins. Flow cytometric analysis reveals high levels of uvomorulin on both B- and non-B-cells, without any difference between the two populations. On a "1 to 100" scale, B-cell aggregation in the presence of Ca2+ was decreased by anti-uvomorulin Fab fragments from 67 +/- 4 to 25 +/- 3 (mean +/- SEM, n = 4, P less than 0.01). This level is not different from the degree of B-cell aggregation seen in the presence of 0.5 mM EDTA (22 +/- 2). Aggregation of non-B-cells was only slightly decreased by anti-uvomorulin Fab fragments (from 69 +/- 3 to 52 +/- 4). However, after TC-treatment, homotypic cell aggregation of both B- and non-B-cells was completely inhibited by anti-uvomorulin Fab fragments. Thus, uvomorulin appears to be the only functional cadherin on islet cells, and cell type aggregation properties diverge only by virtue of higher levels of Ca(2+)-independent CAMs on non-B-cells. Fab fragments with the property of perturbing islet cell aggregation in the absence but not in the presence of calcium also prevented pseudoislet organization in vitro, suggesting that Ca(2+)-independent CAMs play the major role in islet cell type segregation. In conclusion, the results show that uvomorulin is responsible for the Ca(2+)-dependent aggregation of islet cells and suggest that the cellular organization within islets or pseudoislets results from the different level of Ca(2+)-independent CAMs on islet cell types.
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PMID:Uvomorulin mediates calcium-dependent aggregation of islet cells, whereas calcium-independent cell adhesion molecules distinguish between islet cell types. 193 61

Cadherins are recognized as the principal mediators of homotypic cellular recognition and play a demonstrated role in the morphogenic direction of tissue development. We report here the identification of a structurally unique, kidney-specific member of the cadherin multigene family (Ksp-cadherin). cDNA cloning and molecular analysis of the 130-kDa protein confirmed that it was novel and indicated that it most closely resembled members of the LI-cadherin/HPT-1 cadherin subgroup. The predicted protein possesses the definitive cadherin-specific sequence motifs LDRE, DXND, and DXD in well conserved sequential arrangement, and the characteristic cysteine residues found in the last ectodomains of almost all known cadherins. Like LI-cadherin and HPT-1, Ksp-cadherin lacks the prosequence and HAV adhesion recognition sequence typical of most classical cadherins, and possesses a truncated cytoplasmic domain (18-22 amino acids). When expressed in a transient Vaccinia/T7 expression system, Ksp-cadherin displayed the classic calcium sensitivity to trypsin proteolysis that is observed in all cadherins. Immunolocalization studies and Northern analysis indicated that expression of Ksp-cadherin was kidney-specific and limited to the basolateral membranes of renal tubular epithelial cells. In summary, we have identified and cloned a novel, kidney-specific member of the cadherin multigene family that we propose be designated Ksp-cadherin.
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PMID:Isolation and cDNA cloning of Ksp-cadherin, a novel kidney-specific member of the cadherin multigene family. 761 66

We have identified a Drosophila homolog of vertebrate classic cadherins. A monoclonal antibody to Drosophila alpha-catenin (D alpha-catenin) copurifies a 150-kDa glycoprotein (gp150) along with the alpha-catenin. To further characterize this protein, we generated monoclonal antibodies to gp150 and isolated its cDNAs using the antibodies. Predicted sequences of the encoded product revealed that it is a transmembrane protein with similarity to vertebrate classic cadherins, and so we designated this molecule DE-cadherin. The extracellular domain has six cadherin-specific repeats, although the first repeat seems to be cleaved off upon maturation, and the cytoplasmic domain shows significant identity to that of vertebrate classic cadherins. DE-cadherin is distinguishable from its vertebrate counterparts by a large insertion with local sequence similarity to Fat, laminin A chain, Slit, and neurexin I at the proximal region of the extracellular domain. Despite such differences, DE-cadherin is functionally similar to vertebrate classic cadherins. For example, it is associated with alpha-catenin and beta-catenin (Armadillo), and protected from trypsin digestion only in the presence of Ca2+, as is the case for many of classic cadherins. Transfection of S2 cells with the DE-cadherin cDNA enhances their Ca(2+)-dependent cell aggregation. Antibodies to this molecule inhibited aggregation of not only the transfectants but also early embryonic cells. DE-cadherin is concentrated at the apical poles of epithelial cell-cell junctions. All these results suggest that DE-cadherin is a homolog of vertebrate classic cadherins and that the vertebrate and invertebrate share common mechanisms for regulation of cell-cell adhesion.
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PMID:A Drosophila homolog of cadherin associated with armadillo and essential for embryonic cell-cell adhesion. 795 32

BD31 mAb, raised against a line of gastric carcinoma cells, reacts with intercellular boundaries of human transformed cells originating from carcinomas or sarcomas growing in epithelial-like clusters as well as in primary cultures of epithelial and endothelial cells. BD31 also reacts with intercellular rims of normal and transformed epithelial tissues and is particularly abundant in glands and fast-growing epithelia but absent in nervous and muscle tissues as well as in blood and in mesenchyme-derived cells. Confocal analysis indicates that BD31 is located in dots at cell-cell contacts but not in basal and apical domains of cultured and in situ epithelial cells. mAb BD31 precipitates a 100 kDa protein from cells labeled with [35S]methionine or [3H]glucosamine as well as from 125I-surface-labeled cells. This glycoprotein resists to trypsin in the presence of Ca2+, releases an 80 kDa fragment in the medium and does not react with antibodies to the conserved cytodomain of known cadherins or, specifically, to the ectodomain of E-cadherin in western blotting; moreover, the lack of cadherin cytodomain and protein removal by phosphoinositide-specific phospholipase indicate its membrane anchoring by a glycosyl-phosphatidylinositol (GPI) moiety. BD31 IgGs do not impair cell-matrix adhesion but induce inhibition of Ca(2+)-dependent aggregation, loss of cell-cell adhesion, scattering of confluent cells and appearance of migratory cell phenotypes in a dose- and time-dependent manner. This novel GPI-anchored glycoprotein may regulate intercellular adhesion by a mechanism involving membrane-associated phospholipases.
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PMID:A monoclonal antibody identifies a novel GPI-anchored glycoprotein involved in epithelial intercellular adhesion. 796 85

The protein kinase inhibitor H-7 has been shown to block junction dissociation induced by low extracellular calcium in Madin Darby canine kidney epithelial cells (S. Citi, J. Cell Biol. (1992) 117, 169-178). To understand the basis of this effect, we have examined how H-7 affects the organization of junctions and the actin cytoskeleton in different types of epithelial cells in culture. Immunofluorescence microscopy showed that H-7 confers Ca2+ independence on cultured epithelial lens cells, which lack tight junctions and desmosomes but have microfilament-associated adherens junctions. In these cells, H-7 did not protect N-cadherin from trypsin digestion at low extracellular calcium, suggesting that H-7 does not stabilize the 'active' cadherin conformation. In cultured Madin Darby canine kidney cells, H-7 partially prevented the fall in transepithelial resistance induced by cytochalasin D, either alone or in conjunction with calcium chelators. Double-immunofluorescence microscopy showed that H-7 inhibits both the fragmentation of labeling for the tight junction protein cingulin and the condensation of actin into cytoplasmic foci induced by cytochalasin D. Taken together, these observations indicate that H-7 inhibits junction dissociation by affecting the contractility of the adherens junction-associated microfilaments following treatment with calcium chelators or cytochalasin D.
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PMID:Cytoskeletal involvement in the modulation of cell-cell junctions by the protein kinase inhibitor H-7. 800 81

Pemphigus vulgaris antigen (PVA) is a member of the desmoglein subfamily of the cadherin supergene family. PVA has homology to the classical cadherins (e.g., E-cadherin), both in its extracellular and cytoplasmic domains. Classical cadherins possess certain well-defined and characteristic biochemical properties of both domains. The cytoplasmic domain binds alpha-, beta-, and gamma-catenins. The extracellular domain is protected by calcium from degradation by trypsin. In this study we show that PVA does not share these characteristic biochemical features. Immunoprecipitation of E-cadherin and PVA from human keratinocytes shows that under the same conditions in which the catenins co-precipitate with E-cadherin, only plakoglobin (which co-migrates with gamma-catenin) co-precipitates with PVA. Treatment of keratinocytes with 0.01% trypsin in 1 mM calcium (T/C) does not degrade the extracellular region of E-cadherin, but does partially degrade that of PVA. This increased T/C susceptibility of PVA is not due to its cytoplasmic domain, as the same sensitivity of the extracellular domain of PVA to T/C was observed in L cell clones transfected with a chimeric cDNA that encoded for the extracellular domain of PVA and the cytoplasmic domain of E-cadherin. These data demonstrate that although the desmogleins and classical cadherins share striking amino acid homologies in both the cytoplasmic and extracellular domains, they do not exhibit identical biochemical properties and, by extension, may not subserve identical cell biologic functions.
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PMID:Pemphigus vulgaris antigen lacks biochemical properties characteristic of classical cadherins. 804 Jun 5

The plasma membrane (oolemma) of the hamster egg retains the ability to fuse with spermatozoa even after exhaustive treatment with proteases and glycosidases. In contrast, when mouse oolemma is treated with proteases, the ability of eggs to fuse with spermatozoa is reduced. In the present study, similar treatments effective in reducing fusibility in the mouse were reexamined in the hamster. Of the several enzymes and treatments tested, only trypsin in Ca(2+)-free medium significantly reduced the hamster oolemma's ability to fuse with spermatozoa. This is suggestive of a cadherin-like system of binding and fusion. When hamster oolemmae were treated with the same protease regimen that reduced fusibility of mouse oolemma for mouse spermatozoa, heterologous fusion of hamster oolemmae with mouse spermatozoa was reduced, without affecting the fusion of these oolemmae with hamster spermatozoa. These data suggest that a protease-sensitive oolemma molecule is of critical importance for mouse sperm-oolemma fusion but not for hamster sperm-oolemma fusion.
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PMID:Retention of hamster oolemma fusibility with spermatozoa after various enzyme treatments: a search for the molecules involved in sperm-egg fusion. 808 12

Pemphigus vulgaris antigen (PVA) is a member of the desmoglein subfamily of cadherin cell adhesion molecules. Because autoantibodies in this disease cause blisters due to loss of epidermal cell adhesion, and because desmoglein is found in the desmosome cell adhesion junction, we wanted to determine if PVA is also found in desmosomes. By immunofluorescence, PV IgG bound, in a dotted pattern, to the cell surface of cultured human keratinocytes induced to differentiate with calcium, suggesting junctional staining. However, by preembedding, immunogold electron microscopic studies only slight labeling could be detected in desmosomes, presumably because of difficulty in gold penetration of intact desmosomes. We therefore treated the keratinocytes with 0.01% trypsin in 1 mM calcium, conditions known to preserve cadherin antigenicity but that caused slight separation of desmosomes, before immunogold staining. In this case there was extensive labeling of the extracellular part of desmosomes but not of the interdesmosomal cell membrane which was stained with anti-beta 2-microglobulin antibodies. To confirm the specificity of this binding we showed that antibodies raised in rabbits against the extracellular portions of PVA also bound desmosomes in these cultures. In intact mouse epidermis we could also show slight, but specific, immunogold desmosomal labeling with PV IgG. Furthermore, neonatal mice injected with PV IgG affinity purified on PVA showed desmosomal separation with the IgG localized to desmosomal cores. These results indicate that PVA is organized and concentrated within the desmosome where it presumably functions to maintain the integrity of stratifying epithelia.
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PMID:Pemphigus vulgaris antigen, a desmoglein type of cadherin, is localized within keratinocyte desmosomes. 832 Feb 63

The ret proto-oncogene (proto-ret) encodes a receptor type tyrosine kinase with a cadherin-related sequence in the extracellular domain. To investigate whether the proto-Ret protein functions as a cell adhesion molecule like cadherins, we transfected the human proto-ret gene fused to the SV40 promoter or cytomegalovirus (CMV) promoter into mouse L cells in which cadherins are not expressed. Three transfectants with high levels of expression of the proto-Ret proteins were obtained. The proto-Ret proteins were expressed as 150 kDa and 170 kDa glycoproteins in transfectants as observed in human neuroblastoma cells. Cell fractionation experiments revealed that the 170 kDa protein but not the 150 kDa protein was detected predominantly in the plasma membrane fraction, indicating that the 170 kDa protein represents the mature glycosylated form of the proto-Ret protein present on the cell surface. Both 150 kDa and 170 kDa proto-Ret proteins showed tyrosine kinase activity in immunocomplex kinase assay. It is known that cadherins have Ca(2+)-dependent homophilic binding activity and are resistant to trypsinization in the presence of Ca2+. When L cells expressing the proto-Ret proteins were treated with trypsin in the presence of Ca2+, the 170 kDa protein was resistant to its digestion. On the other hand, it was completely digested in the presence of EGTA, suggesting the possibility that the proto-Ret protein interacts with Ca2+ like cadherins. However, the transfectants did not show clear adhesive properties in cell aggregation assays.
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PMID:Characterization of the ret proto-oncogene products expressed in mouse L cells. 841 95


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