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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.
...
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.
...
PMID:Uvomorulin mediates calcium-dependent aggregation of islet cells, whereas calcium-independent cell adhesion molecules distinguish between islet cell types. 193 61
All Ca2(+)-dependent cell adhesion molecules are synthesized as precursor polypeptides followed by a series of posttranslational modifications including proteolytic cleavage. The mature proteins are formed intracellularly and transported to the cell surface. For
uvomorulin
the precursor segment is composed of 129-amino acid residues which are cleaved off to generate the 120-kD mature protein. To elucidate the role of proteolytic processing, we constructed cDNAs encoding mutant
uvomorulin
that could no longer be processed by endogenous proteolytic enzymes and expressed the mutant polypeptides in L cells. Instead of the recognition sites for endogenous proteases, these mutants contained either a recognition site of serum coagulation factor Xa or a new
trypsin
cleavage site. The intracellular proteolytic processing of mutant polypeptides was inhibited in both cases. The unprocessed polypeptides were efficiently expressed on the cell surface and had other features in common with mature
uvomorulin
, such as complex formation with catenins and Ca2(+)-dependent resistance to proteolytic degradation. However, cells expressing unprocessed polypeptides showed no
uvomorulin
-mediated adhesive function. Treatment of the mutant proteins with the respective proteases results in cleavage of the precursor region and the activation of
uvomorulin
function. However, other proteases although removing the precursor segment were ineffective in activating the adhesive function. These results indicate that correct processing is required for
uvomorulin
function and emphasize the importance of the amino-terminal region of mature
uvomorulin
polypeptide in the molecular mechanism of adhesion.
...
PMID:Correct proteolytic cleavage is required for the cell adhesive function of uvomorulin. 221 31
We show that a synthetic peptide corresponding to the sequence of one putative Ca2+ binding motif of the cell adhesion molecule
uvomorulin
is able to complex Ca2+. This function is abolished if the first Asp in the peptide is replaced by Lys. Accordingly, we expressed in L cells mutant
uvomorulin
with a replacement of Asp to Lys or Ala. Mutant protein was resistant to Ca2+/
trypsin
under mild conditions but became susceptible at or near the site of replacement at higher concentrations, leaving the remaining Ca2+ binding domains protected. Remarkably, in cell aggregation assays both mutant uvomorulins failed to mediate cell adhesiveness, demonstrating that a single amino acid substitution in one Ca2+ binding site inactivates the adhesive function.
...
PMID:Single amino acid substitutions in one Ca2+ binding site of uvomorulin abolish the adhesive function. 225 21
We have developed a method for purifying
L-CAM
, the cell adhesion molecule from embryonic chicken liver cells, and have compared its properties with those of N-CAM, the neural cell adhesion molecule.
L-CAM
was released from membranes with
trypsin
, purified by a series of chemical techniques, and used to generate monoclonal antibodies which allowed the identification of the intact
L-CAM
molecule from membranes. The monoclonal antibodies were used to isolate
trypsin
-released
L-CAM
in a single step by affinity chromatography. Material purified by either technique was predominantly a component of M(r) 81,000 on NaDodSO(4)/polyacrylamide gel electrophoresis with a pI of 4.0-4.5. Rabbit antibodies to this component and to the M(r) 81,000 species that had been further purified on NaDodSO(4)/polyacrylamide gel electrophoresis displayed all of the activities of anti-
L-CAM
. Some of the
trypsin
-released
L-CAM
bound specifically to lentil lectin, suggesting that
L-CAM
is a glycoprotein. The apparent molecular weight of material having
L-CAM
antigenic determinants depended upon the procedures used to extract membranes; this appears to account for the various values reported previously in the literature. Both the rabbit serum antibodies and the monoclonal antibodies detected the M(r) 81,000 species on immunoblots of unfractionated
trypsin
-released material. Immunoblots of whole liver cell membranes with the same antibodies revealed a major M(r) 124,000 component, with minor components of M(r) 94,000 and 81,000. Active
L-CAM
derivatives released by
trypsin
in the presence of EGTA were detected as a species of M(r) 40,000.
L-CAM
derivatives obtained by extraction of membranes with EDTA alone appeared as species of M(r) 53,000, 62,000, and 81,000. The combined results suggest that
L-CAM
on the cell surface is an acidic glycoprotein of M(r) 124,000. In the presence of calcium, the molecule can be released from membranes by
trypsin
as a soluble M(r) 81,000 fragment; in the absence of calcium, it is released by either endogenous proteases or by
trypsin
as a variety of smaller fragments.
...
PMID:Characterization of L-CAM, a major cell adhesion molecule from embryonic liver cells. 657 55
A linear model of the liver cell adhesion molecule
L-CAM
from embryonic chickens is proposed in terms of its orientation on the cell surface, the number, type, and distribution of carbohydrate moieties, and sites of phosphorylation.
L-CAM
is isolated from cell membranes as a glycoprotein of Mr = 124,000. A soluble fragment (Ft1) of Mr = 81,000 can be released from cells by digestion with
trypsin
in the presence of calcium. Radiochemical amino acid sequence analyses indicated that both polypeptides have the same sequence for the first 10 amino acids, suggesting that fragment Ft1 contains the amino terminus of the
L-CAM
molecule and that the carboxyl-terminal portion of the peptide chain is associated with the cell. Digestions with endoglycosidase H and endoglycosidase F indicated that Ft1 has all of the N-linked carbohydrate groups associated with the larger species, including one high mannose oligosaccharide and three complex oligosaccharides. When hepatocytes were grown in the presence of 32PO4, 32P was detected in phosphoserine and phosphothreonine residues of intact
L-CAM
, but little or no 32P was detected in Ft1, suggesting that
L-CAM
is phosphorylated in the carboxyl-terminal region. On CNBr cleavage, the bulk of the 32P was detected in a single fragment of Mr = 20,000. The overall features of the
L-CAM
molecule incorporated in the model provide a basis for correlating its structure with its cell-cell binding activity and for detailed comparisons with similar molecules described in mammalian species.
...
PMID:Linear organization of the liver cell adhesion molecule L-CAM. 659 88
Compaction, a process of cell-cell adhesion between mouse blastomeres or between embryonal carcinoma (EC) cells requires calcium ions. A decompaction effect similar to that observed in the absence of Ca2+ is triggered by Fab fragments of rabbit anti-EC IgG. This effect occurs through the recognition of a specific cell-surface glycoprotein named
uvomorulin
. An 84,000 dalton fragment of
uvomorulin
(UMt) has been previously extracted by
trypsin
from EC cell membranes and purified. WE present evidence that effects of Ca2+ on compaction are transmitted through conformational changes in
uvomorulin
. First, Ca2+ protects UMt from further proteolysis by
trypsin
. Mn2+ and Sr2+ have similar effects, whereas this protection is reversed by La3+. Second, UMt can bind the monoclonal antibody De1 only in the presence of Ca2+ (half-binding at 10(-5) M Ca2+). This antigenic exposure also takes place in the presence of Mn2+ or Sr2+ and is reversed by La3+. Third, metal ions (Ca2+, Mn2+, Sr2+) that promote
trypsin
resistance and recognition by DE1 are found to trigger the compaction of morulae and EC cells. Metal ions (La3+) that reduce
trypsin
resistance and affinity for DE1 result in decompaction.
...
PMID:Cell-cell interactions in early embryogenesis: a molecular approach to the role of calcium. 697 38
Cinnamyl alcohol dehydrogenase (CAD) catalyses the reduction of hydroxycinnamaldehydes (p-coumaryl, coniferyl, sinapyl) to the corresponding alcohols which are the monomeric precursors of lignins. We have demonstrated the occurrence of two isoforms of CAD (
CAD1
and CAD2) in bean which differ in terms of subunit Mr, specific activity, substrate affinity and antigenicity. The most abundant polypeptide in bean pods, organs with very limited lignification, is a low affinity CAD isoform (
CAD1
). This enzyme which is distinct from a benzyl alcohol dehydrogenase with broad substrate specificity, was purified to apparent homogeneity and partial amino acid sequencing was carried out using internal peptides obtained by
trypsin
cleavage.
...
PMID:Purification and characterization of cinnamyl alcohol dehydrogenase isoforms from Phaseolus vulgaris. 776 63
The cell-adhesion protein E-cadherin/
uvomorulin
exhibits a calcium-dependent homoassociation. The effect of Ca2+ on the extracellular fragment of E-cadherin was studied using the recombinant protein expressed in the baculovirus expression system. The recombinant and native fragment of E-cadherin were found to be similar by many biochemical criteria [Herrenknecht, K. & Kemler, R. (1993) J. Cell Sci. 17, 147-154]. A large and reversible conformational transition was observed upon Ca2+ depletion. A change from a rod-like structure, 22 nm in length, to a more globular assembly of the five subdomains became evident by electron-microscopical analysis. In the presence of Ca2+, the circular dichroic spectra indicated predominantly beta-structure but a more negative ellipticity was observed in the absence of Ca2+. The intrinsic tryptophan fluorescence decreased by 12% upon Ca2+ depletion. Both effects were used for calcium titrations which indicated calcium binding to several sites with average K(d) values of 45-150 microM. Cleavage of the protein fragment by
trypsin
occurred only at low Ca2+ concentrations and from the calcium-dependence of cleavage rates, a K(d) value of 24 microM was derived. The major site of cleavage was identified by partial sequencing to be located between the two putative calcium-binding sites in the third subdomain from the N-terminus. In agreement with earlier results with the native fragment, the recombinant protein did not associate in the presence or absence of Ca2+. We suggest the calcium-dependent homoassociation therefore depends on additional effects connected with the cell surface association of E-cadherin.
...
PMID:Conformational changes of the recombinant extracellular domain of E-cadherin upon calcium binding. 805 42
Cadherins are Ca(2+)-dependent cell adhesion molecules that mediate cell adhesion by homophilic binding. Structural and functional analysis of the extracellular part of cadherins that mediates this binding has often been hampered by the availability of sufficient amount of protein. Therefore, we have expressed the extracellular region of E-cadherin (
uvomorulin
) using the baculovirus expression vector system (BEVS). A recombinant baculovirus was generated that encodes the signal peptide, the precursor region and the extracellular part of the mature protein, under the control of the promotor for polyhedrin. Infection of insect cells with recombinant virus led to the expression of about 40 mg of the E-cadherin fragment per 2 x 10(9) infected cells. About half of the protein synthesized was secreted, either as mature protein or in its unprocessed form. The precursor peptide was removed by
trypsin
treatment in the presence of Ca2+ and recombinant protein was purified to homogeneity. Biochemical characterization of the recombinant protein revealed a high degree of similarity with the mouse wild-type protein. Recombinant protein exhibited the known resistance to
trypsin
in the presence of Ca2+ and was recognized by two different conformation-sensitive monoclonal anti-E-cadherin antibodies. Rabbit antibodies made against the recombinant protein recognized E-cadherin from different species. In spite of the high degree of structural resemblance recombinant E-cadherin was not able to inhibit E-cadherin mediated cell-cell adhesion.
...
PMID:Characterization of recombinant E-cadherin (uvomorulin) expressed in insect cells. 814 91
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