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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)
Proteoglycan monomer (D1) and aggregate (A1) preparations were isolated from 4 M guanidinium chloride extracts of the Swarm rat chondrosarcoma. When EDTA, 6-aminohexanoic acid, and benzamidine were present in the solutions, the D1 preparation contained a single component (SO = 23 S), and the A1 preparation contained 30% monomer (SO = 23 S) and 70 percent aggregate (SO = 111 S). In the absence of EDTA, 6-aminohexanoic acid, and benzamidine, the A1 preparations contained only small proteoglycan fragments, indicating that extensive enzymatic degradation had occurred. The composition of the proteoglycan monomer was different from that of proteoglycan monomer preparations from normal hyaline cartilages in that it did not contain keratan sulfate and chondroitin 6-sulfate; only chondroitin 4-sulfate was found. The A1 preparation from the chondrosarcoma contained only one
link protein
, which was like the smaller (molecular weight of 40,000) of the two link proteins present in A1 preparations from bovine nasal cartilage. When the A1 preparation from the chondrosarcoma was treated with chondroitinase ABC and
trypsin
and the digest was chromatographed on Sepharose 2B, a complex was isolated which contained the
link protein
and the segments of the protein core from the hyaluronic acid-binding region of the proteoglycan molecules.
...
PMID:Isolation and characterization of proteoglycans from the swarm rat chondrosarcoma. 12 82
1. Proteoglycan aggregates from bovine nasal cartilage were studied by using electron microscopy of proteoglycan/cytochrome c monolayers. 2. The aggregates contained a variably long central filament of hyaluronic acid with an average length of 1037nm. The proteoglycan monomers attached to the hyaluronic acid appeared as side chain filaments varying in length (averaging 249nm). They were distributed along the central filament at an average distance of about 36nm. 3. Chondroitin sulphate side chains were removed from the proteoglycan monomers of the aggregates by partial chondroitinase digestion. The molecules obtained had the same general appearance as intact aggregates. 4. Proteoglycan aggregates were treated with
trypsin
and the largest fragment, which contains the hyaluronic acid,
link protein
and hyaluronic acid-binding region, was recovered and studied with electron microscopy. Filaments that lacked the side chain extensions and had the same length as the central filament in the intact aggregate were observed. 5. Hyaluronic acid isolated after papain digestion of cartilage extracts gave filaments with similar length and size distribution as observed for the central filament both in the intact aggregate and in the
trypsin
digests. 6. Umbilical-cord hyaluronic acid was also studied and gave electron micrographs similar to those described for hyaluronic acid from cartilage. However, the length of the filament was somewhat shorter. 7. The electron micrographs of both intact and selectively degraded proteoglycans corroborate the current model of cartilage proteoglycan structure.
...
PMID:Cartilage proteoglycan aggregates. Electron-microscopic studies of native and fragmented molecules. 21 57
Monoclonal antibodies were raised that specifically recognize the NH2-terminal neoepitope sequence present in
link protein
cleavage products derived from stromelysin-degraded proteoglycan aggregate. Competitive enzyme-linked immunosorbent assay, using synthetic peptides as inhibitors, showed that one of these antibodies (CH-3) required, for antibody recognition, the free NH2-terminal amino acid isoleucine (residue 17 of the intact protein) in the sequence NH2-IQAENG at the stromelysin cleavage site of
link protein
3. Human proteoglycan aggregate was digested with recombinant human stromelysin, bovine chymotrypsin, bovine
trypsin
, and porcine elastase, and their respective
link protein
degradation products were tested for immunoreactivity with antibody CH-3. Only stromelysin- and chymotrypsin-generated
link protein
3 were recognized by antibody CH-3. Both of these enzymes generate
link protein
NH2 termini with the sequence 17IQAENG. . .; hence these studies indicated that monoclonal antibody CH-3 recognized this neoepitope sequence in only specific proteolytically modified
link protein
molecules. Since the occurrence of
link protein
3 increases with aging, the incidence of CH-3 epitope in proteoglycans isolated from human knee articular cartilage of individuals of different ages was investigated. The prevalence of CH-3 epitope was found to be highest in newborn and adolescent articular cartilage samples. However, little CH-3 epitope was detected in older adult cartilage, although considerably more
link protein
3 was present in these samples. These results suggest that additional proteolytic agents are responsible for the increased occurrence of
link protein
degradation products with aging.
...
PMID:Monoclonal antibodies recognizing protease-generated neoepitopes from cartilage proteoglycan degradation. Application to studies of human link protein cleavage by stromelysin. 137 86
Mild digestion of 125I-labelled human proteoglycan aggregates with
trypsin
or stromelysin produced specific peptides that were taken up rapidly by THP-1 monocytes. SDS/PAGE of undigested aggregate showed that the three components of molecular mass 48, 44 and 41 kDa, corresponding to isoforms of
link protein
originally present, had been converted into a single component of 41 kDa by
trypsin
treatment, and that fragments of 6-12 kDa were present in fractions containing the high-uptake peptide. Separate proteolysis of isolated proteoglycan monomer and
link protein
confirmed that the specific high-uptake fragment was derived from
link protein
. Uptake of the link fragment was rapid, reaching a maximum after 5 min, and specific, since it was blocked by metabolic or serine proteinase inhibitors and at 4 degrees C. After uptake the cleaved fragment was processed further, with 50% of the radiolabel being released as degraded peptides within 5 min. In contrast, accumulation of whole aggregate reached a maximum after 45 min and only 50% had been released after 2 h. Uptake of aggregate was less affected by inhibitors or at low temperature, suggesting that a separate mechanism existed for its turnover. The aggregate was transported to lysosomes after uptake, although the link fragment did not sediment with either lysosomes or plasma membranes, suggesting that it was present in the cytoplasm or in very labile vesicles. However, the mode of handling of the peptide by the cells remains unclear. The link fragment was taken up by several different monocytic and B cell lines, but not by mouse fibroblasts or peritoneal macrophages. These data suggest that a surface serine proteinase on monocytes and B cells enables them to process and take up a fragment of
link protein
derived by extracellular proteolysis.
...
PMID:A proteolytic fragment from human link protein is taken up and processed by monocytes and B cells. 176 32
A peptide with hyaluronic acid-binding properties was isolated from
trypsin
digests of bovine articular cartilage proteoglycan aggregate. This peptide originated from the N-terminus of the proteoglycan core protein, retained its function of forming complexes with hyaluronate and
link protein
and contained at least one keratan sulfate chain. Amino acid sequence data demonstrated that the first six amino acid residues of the N-terminus of bovine articular cartilage proteoglycan core protein differed from the same region from the rat chondrosarcoma proteoglycan. Further sequence data indicate areas of considerable sequence homology in the hyaluronic acid-binding regions of proteoglycans from the two species.
...
PMID:The N-terminal sequence of the large proteoglycan of articular cartilage. 225 58
BALB/c mice were immunized with isolated
trypsin
-produced hyaluronic acid-binding region (HABR) or HABR/
link protein
complex from bovine nasal cartilage proteoglycan (PG) aggregates conjugated to keyhole limpet hemocyanin. The monoclonal antibodies (Mabs) raised were characterized by solid-phase ELISA inhibition and SDS-polyacrylamide gel electrophoresis immunoblotting. Nine Mabs react with intact PG monomer, HABR and HABR/link complex. Two of the anti-HABR Mabs appear to be directed to epitopes in or near the HA-binding site of PG monomer; one of these epitopes is insensitive to reduction and alkylation and pronase treatment and is likely to consist of carbohydrate. The remaining anti-HABR Mabs react with PG aggregate, are non-reactive with pronase-treated PG monomer and vary in their reactivity with reduced and alkylated PG monomer. Three Mabs react with
link protein
-related epitopes. One of these Mabs reacts only with the tryptic
link protein
fragment, the others also react with PG aggregates and the two native link proteins. Immunological studies of cartilage PG should be facilitated by the availability of Mabs specific for these functionally significant components in native PG aggregates.
...
PMID:Monoclonal antibodies reacting with tryptic hyaluronic acid-binding region and link protein fragments of bovine nasal cartilage proteoglycan. 237 18
Monoclonal antibodies were raised against Swarm rat chondrosarcoma
link protein
2. Two of the resultant hybridomas (9/30/6-A-1 and 9/30/8-A-4) were used in structural analyses of the link proteins. The 9/30/6-A-1 monoclonal antibody recognized an epitope which was only present on rat chondrosarcoma
link protein
2. This epitope was absent in rat chondrosarcoma
link protein
3 obtained after
trypsin
or clostripain treatment of rat chondrosarcoma proteoglycan aggregate, indicating that proteolytic digestion either removed or modified the epitope. Contrasting this, the 9/30/8-A-4 monoclonal antibody recognized an epitope present in
link protein
(s) 1, 2, or 3 isolated from cartilage of several animal species (rat, bovine, human, and chicken). Rat chondrosarcoma
link protein
2 was digested with Staphylococcus aureus V8 protease, and the resulting peptides were fractionated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and subjected to immunolocation analyses. The 9/30/6-A-1 and 9/30/8-A-4 monoclonal antibodies recognized epitopes in two different halves of the
link protein
molecule. The 9/30/8-A-4 monoclonal antibody was used to identify proteolytic cleavage peptides common to the individual link proteins (1, 2, or 3) purified from cartilage proteoglycans of several animal species. Digestion of rat chondrosarcoma
link protein
2 with endoglycosidase H or alpha-mannosidase increased its electrophoretic mobility to that of
link protein
3 and removed or altered the determinant recognized by the 9/30/6-A-1 monoclonal antibody, indicating that a high-mannose oligosaccharide chain was part of the antigenic determinant. The 9/30/8-A-4 monoclonal recognition of epitope was unaffected by endo- or exoglycosidase treatment. Endo- and exoglycosidase treatment of bovine nasal cartilage link proteins also altered their electrophoretic mobility, indicating that high-mannose oligosaccharide structures on the various link proteins (1, 2, or 3) accounted for the microheterogeneity observed in sodium dodecyl sulfate-polyacrylamide gels.
...
PMID:Monoclonal antibodies as probes for determining the microheterogeneity of the link proteins of cartilage proteoglycan. 241 33
Cartilage proteoglycan monomers associate with hyaluronic acid to form proteoglycan aggregates. Link protein, a glycoprotein interacting with both hyaluronic acid and proteoglycan, serves to stabilize the aggregate structure. The primary structure of the
link protein
has been determined with a view to defining its interaction with both hyaluronic acid and proteoglycan. Thus, the
link protein
has been digested with staphylococcal V8 protease,
trypsin
, and chymotrypsin and the resulting peptides characterized by amino acid composition and sequence. We have determined that the
link protein
is a single peptide with 339 amino acid residues. The protein core has a molecular weight of 38,564. There is one N-linked oligosaccharide at residue 41 with a molecular weight of approximately 2,500. There are five disulfide bonds which define three loops within the amino acid sequence. The loop nearest to the NH2-terminal contains 78 amino acids and is followed by a section of 42 amino acids between it and the second loop. The second and third loops display considerable homology with each other; they consist of 71 and 70 amino acids, respectively, each contain two disulfide bonds, and both loops possess, approximately centrally, an epitope for the species nonspecific anti-
link protein
monoclonal antibody, 8A4. These loops are separated by a short section of 27 amino acids. We speculate that these loops are functionally important in the interaction of
link protein
with hyaluronic acid, as they appear to be the most conserved regions of
link protein
between species.
...
PMID:The primary structure of link protein from rat chondrosarcoma proteoglycan aggregate. 241 34
The hyaluronic acid-binding region was prepared by
trypsin
digestion of chondroitin sulfate proteoglycan aggregate from the Swarm rat chondrosarcoma, and biotinylated in the presence of hyaluronic acid and
link protein
. After isolation by gel filtration and HPLC in 4 M guanidine HCl, the biotinylated hyaluronic acid-binding region was used, in conjunction with avidin-peroxidase, as a specific probe for the light and electron microscopic localization of hyaluronic acid in developing and mature rat cerebellum. At 1 w postnatal, there is strong staining of extracellular hyaluronic acid in the presumptive white matter, in the internal granule cell layer, and as a dense band at the base of the molecular layer, surrounding the parallel fibers. This staining moves progressively towards the pial surface during the second postnatal week, and extracellular staining remains predominant through postnatal week three. In adult brain, there is no significant extracellular staining of hyaluronic acid, which is most apparent in the granule cell cytoplasm, and intra-axonally in parallel fibers and some myelinated axons. The white matter is also unstained in adult brain, and no staining was seen in Purkinje cell bodies or dendrites at any age. The localization of hyaluronic acid and its developmental changes are very similar to that previously found in immunocytochemical studies of the chondroitin sulfate proteoglycan in nervous tissue (Aquino, D. A., R. U. Margolis, and R. K. Margolis. 1984. J. Cell Biol. 99:1117-1129; Aquino, D. A., R. U. Margolis, and R. K. Margolis. J. Cell Biol. 99:1130-1139), and to recent results from studies using monoclonal antibodies to the hyaluronic acid-binding region and
link protein
. The presence of brain hyaluronic acid in the form of aggregates with chondroitin sulfate proteoglycans would be consistent with their similar localizations and coordinate developmental changes.
...
PMID:Light and electron microscopic studies on the localization of hyaluronic acid in developing rat cerebellum. 245 Jan
The association of hyaluronate with the surface of chondrocytes was examined by several approaches using primary cultures of chondrocytes derived from the Swarm rat chondrosarcoma. In culture, chondrosarcoma chondrocytes produced large pericellular coats, which can be visualized by particle exclusion, and which can be removed by Streptomyces hyaluronidase. Exposure of chondrocytes, which had been metabolically labelled with 3H-acetate, to exogenous hyaluronate or to Streptomyces hyaluronidase resulted in the release of 36-38% of the endogenous, labelled chondroitin sulfate from the cell layer into the incubation solution. These results imply that at least 37% of the cell layer chondroitin sulfate proteoglycan is retained there by an interaction with hyaluronate. Thus membranes were prepared from cultured chondrocytes and examined for sites which bind 3H-hyaluronate. Binding was observed and found to be saturable, specific for hyaluronate, of high affinity (Kd = approximately 10(-10) M), and destroyed by treating the membranes with
trypsin
. The 3H-hyaluronate-binding activity was inhibited competitively by hyaluronate decasaccharides but not by hexasaccharides or octasaccharides, indicating that the binding sites recognize a sequence of hyaluronate composed of five disaccharide repeats. The binding activity was partially purified from a detergent extract of chondrocyte membranes by ion exchange chromatography on DEAE-cellulose, followed by affinity chromatography on wheat germ agglutinin-agarose. Analysis of the partially purified binding activity by SDS-PAGE revealed five protein bands of 48,000-66,000 daltons in silver-stained gels. SDS-PAGE followed by Western blotting and exposure to monoclonal antibodies which recognize epitopes present in
link protein
and in the hyaluronate-binding region of cartilage proteoglycan revealed no immunoreactive protein bands in the partially purified material. We conclude that one mechanism by which hyaluronate associates with the chondrocyte surface may be via interaction with a membrane-bound hyaluronate-binding protein which is distinct from
link protein
and proteoglycan.
...
PMID:Membrane-associated hyaluronate-binding activity of chondrosarcoma chondrocytes. 247 51
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