EC:3.4.24.3 - FACTA Search

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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Normal mouse spleen cells were fractionated in dishes coated with thin layers of DNP-gelatin or NIP-gelatin, which were insoluble at 4 degrees C. Highly viable cells were recovered from the dishes by melting the gel at 37 degrees C. NIP3- gelatin layers bound approximately 0.1% and DNP4-gelatin layers 0.5% of normal spleen cells. Increasing numbers of low affinity cells were bound with increasing DNP density of the adsorbent. The binding to insoluble DNP-gelatin was hapten-specific since it was inhibited by DNP-lysine, soluble DNP-gelatin or DNP-BSA but not by soluble gelatin or bovine serum albumin (BSA). It was also inhibited by a polyvalent rabbit antimouse Ig. DNP-gelatin was detected on the surface of cells recovered from DNP-gelatin-coated dishes by 125-I-labeled anti-DNP Ig. The cell surface bound DNP-gelatin could be removed by treatment with collagenase. Collagenase treatment did not detectably affect cell viability or surface receptors. More than 90% of DNP-gelatin binding cells were labeled with a polyvalent 125-I-labeled antimouse Ig before or after collagenase treatment under conditions known to label B lymphocytes. Furthermore, the specific antigen-binding capacity of the purified cell populations could be demonstrated after treatment with collagenase. Purified DNP4-gelatin binding cells contained more than 100 times as many DNP-RFC than unfractionated cells. The enrichment of NIP-RFC in the cell population recovered from NIP3 gelatin-coated dishes was more than 200-fold.
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PMID:Separation of antigen-specific lymphocytes. I. Enrichment of antigen-binding cells. 4 91

Mouse spleen cells were subjected to a fractionation procedure designed to enrich for 4-hydroxy-3-iodo-5-nitro-phenylacetyl (NIP)- or DNP-specific B lymphocytes, which depended on adherence of specific cells to a layer of hapten-gelatin at 4 degrees C, recovery of bound cells by melting, and digestion of adherent antigen by collagenase. A population of cells resulted which contained 90% typical B cells and 37% of cells capable of binding a fluorescent, haptenated polymeric protein. Fractionated cells were reacted in vitro with fluorescent conjugates of the specific haptens with polymerized flagellin [NIP-polymerized flagellin (POL)-tetramethylrhodamine isothiocyanate conjugate or DNP-POL-fluorescein isothiocyanate conjugate] under a variety of conditions, with the aim of investigating the behavior of Ig receptors on B lymphocytes after exposure to antigen; Experiments were performed with immunogenic and tolerogenic concentrations of antigen. Furthermore, four experimental designs were used, namely: (a) brief labeling with fluorescent antigen followed by culture without antigen (pulse design); (b) culture in the continuous presence of fluorescent antigen (continuous-labeling design); (c) culture in the continuous presence of nonlabeled antigen followed by labeling of unoccupied receptors by fluorescent antigen (receptor status design); and (d) culture with nonlabeled antigen for 2 h followed by incubation without further antigen for 20 h and labeling with fluorescent antigen (modulation design). Further insight into receptor occupancy and distribution was gained by the use of fluorescent antihapten and antiglobulin reagents. It was found that both immunogenic and tolerogenic antigen concentrations caused rapid patching and capping of the receptors to which they attached, followed by endocytosis and probably some shedding of Ig receptors. However, a proportion of cells continued to bear some cell surface antigen for 24 h. The immunogenic antigen concentration failed to completely remove the receptor coat from the cell surface. At all stages of immunogenesis, plentiful unoccupied receptors could be demonstrated. The tolerogenic concentration nearly saturated available receptors, and in its continuous presence, only few unoccupied or antigen-occupied surface receptors could be detected after 24 h of culture. Experiments of the modulation design showed that brief incubation with the tolerogenic concentration appeared to suppress receptor resynthesis, as few new receptors could be demonstrated after 20 h of further culture without antigen. Experiments were performed to determine whether fractionated cells prepared from spleens of 8-day-old mice showed an unusual tendency for modulation, even with immunogenic antigen concentrations. They were found to behave essentially like adult fractionated cells. The results are discussed in the framework of current theories of B-lymphocyte activation and tolerization.
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PMID:Antigen-induced aggregation and modulation of receptors on hapten-specific B lymphocytes. 5 58

The epithelium of the urinary bladder of Bufo marinus is composed of 5 cell types, i.e., granular (Gr), mitochondria-rich (MR) and goblet (G) cells which face the urinary lumen, microfilament-rich (MFR) and undifferentiated cells (Un) located basally. The epithelium was dissociated by collagenase and EGTA treatment. Fractionation of dispersed cells by isopycnic centrifugation on dense serum albumin solutions yielded 4 fractions: (i) a very light fraction (p approximately equal to 1.025) enriched in MR and MFR cells; (ii) a light fraction (p approximately equal to 1.045) enriched in vacuolated Gr cells; (iii) a heavy fraction (p approximately equal to 1.065) composed essentially of aggregated Gr cells, and (iv) a pellet (p approximately equal to 1.085) enriched in G and undifferentiated cells. Recoveries were based on cell counts and DNA measurements. DNA content per cell was 13.2 pg +/- 0.9 (n = 37). From 1 g fresh tissue, 62 +/- 5 x 10(6) (n = 10) cells were recovered before isopycnic centrifugation of which about 70% excluded Trypan blue. After centrifugation, 90 to 95% of the cells excluded the vital dye and approximately 3(9) x 10(6) cells were recovered from the gradient. Cell metabolism in each fraction was estimated by oxygen consumption measurements in absence or presence of ouabain, acetazolamide, and dinitrophenol. The consumption measurements in absence or presence of ouabain, acetazolamide, and dinitrophenol. The consumption was threefold higher in the very light and light fractions when compared to the heavy and pellet fractions. Ouabain sensitive oxygen consumption (QO2) represented 12 to 35% of the total O2 consumption depending on the cell fraction, and acetazolamide sensitive QO2 varied from -0.8% in the heavy fractions to 20% in the lighter fractions. DNP increased QO2 in all fractions by 20 to 50%. Finally, the cells were able to reaggregate and form junctional complexes upon addition of calcium to the medium.
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PMID:Isolation and separation of toad bladder epithelial cells. 11 48

Normal spleen cells were separated in dishes coated with thin layers of DNP-gelatin or NIP-gelatin into binding and nonbinding cells and stimulated in vitro with DNP- and/or NIP-conjugated polymerized flagellin (POL). Hapten-specific unresponsiveness was induced in the binding cell population by melting the gel at 37 degrees C or in unfractionated cells by pretreatment with soluble hapten-gelatin and could be reversed by treatment with collagenase. A specific enrichment of anti-DNP and anti-NIP antibody-forming cell precursors (AFCP) could be demonstrated in the binding cell populations after treatment with collagenase in cultures with or without "feeder" cells. However, the response of small numbers of unfractionated and purified hapten-specific spleen cells was suboptimal even in the presence of mitomycin-treated or irradiated feeder cells. Optimal numbers of anti-DNP (anti-NIP) antibody-forming cells were generated by small numbers of normal or purified spleen cells in the presence of spleen cells depleted of anti-DNP (anti-NIP) AFCP. In this system the response of only 2 times 10-4 purified hapten-specific cells was higher than the response of 10-6 unfractionated cells. Purified DNP-specific cells responded only to DNP-POL but not to NIP-POL and purified NIP-specific cells responded only to NIP-POL but not to DNP-POL. The degree of enrichment of anti-DNP AFCP decreased with increasing numbers of binding cells. NIP3-gelatin layers bound four to five times less spleen cells than DNP2-gelatin layers and the enrichment of anti-NIP AFCP (about 300-fold) was three times greater than the enrichment of anti-DNP AFCP (about 100-fold). The immunological significance of hapten-gelatin binding cells which apparently failed to respond to antigen is discussed.
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PMID:Separation of antigen-specific lymphocytes. II. Enrichment of hapten-specific antibody-forming cell precursors. 16 57

1. The synthetic peptide, 2,4-dinitrophenyl-L-Pro-L-Leu-Gly-L-Ile-L-Ala-Gly-L-Arg-amide (DNP-peptide) was tested as a potential substrate for uterine collagenase. Rat uteri were homogenized and the insoluble fraction was extracted at 60 degrees C to obtain collagenase. The extracts were chromatographed on Sephadex G-150 to yield two peaks of DNP-peptide hydrolyzing activity. Peak I was completely inhibited by EDTA and had a molecular weight greater than 100 000. Peak II was inhibited about 90% by EDTA and had an apparent molecular weight of about 70 000. 2. Peak II coincided closely, but not exactly, with the peak of collagenase activity. It differed from collagenase in heat stability, binding properties on CM-Sephadex and failure to display latency. 3. Peak II represents a new endopeptidase activity. It has a pH optimum of 7 and it cleaves the DNP-peptide at the Gly-Ile and, possibly, the Leu-Gly bond. 4. The DNP-peptide is not a satisfactory substrate for the assay of impure collagenase preparations nor does it inhibit the action of collagenase on collagen substrate when added in 30-fold molar excess.
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PMID:Separation of collagenase and a metal-dependent endopeptidase of rat uterus that hydrolyzes a heptapeptide related to collagen. 22 33

Evidence is presented that Achromobacter iophagus produces two distinct collagenases. Achromobacter collagenases A and B were separated by high-performance liquid chromatography from partially purified enzyme. The main collagenase, A (EC 3.4.24.8), which has been already described, was eluted in the region of molecular mass 110-90 kDa. A minor collagenase B eluted in the region of 320 kDa, although in SDS-gel electrophoresis the apparent molecular masses of its main active forms were estimated as 55 and 110 kDa. The specificities of collagenases A and B are different. Collagenase A splits in its synthetic substrate Pz-Pro-Leu-Gly-Pro-DArg the bond Leu-Gly, collagenase B does not split this substrate. Both collagenases split bonds Gln-Gly and Leu-Gly in synthetic peptides DNP-Pro-Gln-Gly-Ile-Ala-Gly-Gln-DArg-OH and DNP-Pro-Leu-Gly-Ile-Ala-Gly-DArg-NH2, respectively. Collagenase B is twice as active as A on the native collagen type I. Both enzymes are inhibited by EDTA. The antibodies raised against the human tooth collagenase specifically inhibited the collagenase B, but did not influence the activity of collagenase A. These results indicate, to our knowledge for the first time, an immunological relationship between a bacterial and a vertebrate collagenase.
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PMID:New Achromobacter collagenase and its immunological relationship with a vertebrate collagenase. 245 70

To investigate the roles of collagenolytic enzymes in the ovulatory process of PMS-hCG treated immature female rats (22 days old), we measured the activities of two of them in the ovary by the using synthetic substrates alpha-N-benzoyl-DL-arginine-2-naphthylamide HCl (BANA) (a collagenolytic cathepsin) and dinitrophenol-Pro-Gln-Gly-Ile-Ala-Gly-Gln-D-Arg OH (DNP peptide) (a neutral collagenase). BANA hydrolase activities significantly began to increase after the hCG injection, reaching a peak 8-9 hours later, and then decreased sharply 10 hours later. There was also a significant increase in DNP peptidase activities 7-10 hours after the hCG injection and a significant decrease 12 hours after the injection. The present study has shown that BANA hydrolase and DNP peptidase appear during the ovulatory process of PMS-hCG-treated immature female rats, and that their significant preovulatory increases are contributory to collagenolysis in follicle rupture.
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PMID:[BANA hydrolase and DNP peptidase activities in the ovulatory process of PMS-hCG treated immature rat]. 268 5

The purified collagenase from tadpole (Rana catesbiana) back skin was studied with respect to its activation energy using soluble and fibrillar type I collagen, as well as a synthetic peptide substrate, DNP-Pro-Gln-Gly-Ile-Ala-Gly-Gln-D-Arg. The activation energy appeared to be independent of the nature of the substrate, ranging between 28 and 35 kcal/mol. The peptide was cleaved at the Gly-Ile bond and proved to be a poor substrate (kcat/Km, 1.21 h-1 microM-1) when compared with native type I collagen in solution (kcat/Km, 40.6 h-1 microM-1), consistent with the enzyme's low activity versus gelatin [T. A. Bicsak and E. Harper (1984) J. Biol. Chem. 259, 13145]. The amino acid composition of the collagenase was shown to be high in glycine and glutamic acid, and the preparation was shown not to be contaminated with collagen by digestion with bacterial collagenase. The enzyme was not inhibited by iodoacetic acid or 2-hydroxy-5-nitrobenzyl bromide, suggesting the lack of essential cysteinyl and tryptophanyl residues, but was inhibited by micromolar concentrations of ZnCl2, consistent with the presence of essential histidine(s). Ethoxyformic anhydride irreversibly inhibited the collagenase suggesting the presence of essential lysyl residues.
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PMID:Chemical and kinetic characterization of tadpole back skin collagenase. 299 32

Three human matrix degrading leukocyte proteinases, type I collagenase, gelatinase and a new type IV collagenase were isolated in latent and active form. Activation of all three latent enzymes could be achieved by treatment with either organomercurials or with trypsin. In addition the 90 kDa latent type I-collagenase could be activated by disulfides, while a newly discovered 70 kDa latent form could be activated with organomercurials or with trypsin. The active type I collagenase was inhibited by gamma-anticollagenase from human serum (and the leukocyte type I collagenase inhibitor, while the newly found type IV collagenase was inhibited only partially. The complexes formed from gamma-anticollagenase with type I collagenase, i. e. latent enzyme, are not reactive site associated complexes. The binding is not of a substrate-like and competitive manner. After inhibition of the enzyme though inactive against its natural substrates it is still hydrolyzing the synthetic low molecular weight octapeptide DNP-Pro-Gln-Gly-Ile-Ala-Gly-Gln-D-Arg-OH.
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PMID:Matrix degrading proteinases from human granulocytes: type I, II, III collagenase, gelatinase and type IV, V-collagenase. A survey of recent findings and inhibition by gamma-anticollagenase. 302 41

Primary cultures of adult rat hepatocytes (Fischer 344) were used as an in vitro metabolic activation system in immunotoxicological assays. Rat hepatocytes were isolated by a collagenase perfusion technique and cultured for 20 to 24 hr to allow the formation of a monolayer on collagen-coated plastic petri dishes. Spleen cells isolated from (C57BL/6 X C3H)F1 mice were cocultured with the hepatocytes along with the chemicals. Cyclophosphamide (CP) and Aflatoxin B1 (AFB1) were effectively activated in this coculture system and produced a dose-related suppression of the in vitro antibody responses to LPS, DNP-Ficoll, and SRBC in 3 hr. Neither CP (1 mM) nor AFB1 (10(-4) M) cultured with spleen cells alone produced any effects. Both CP and AFB1 also produced a dose-related suppression of the proliferative responses to LPS, Con A, and PHA. In contrast, up to 100 mM of N-nitrosodimethylamine (DMN) did not suppress any of these assays after a 3-hr incubation in the coculture system. These results indicate that a coculture system can be used to characterize the activity of immunosuppressive chemicals requiring metabolic activation.
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PMID:Immunosuppression induced by chemicals requiring metabolic activation in mixed cultures of rat hepatocytes and murine splenocytes. 308 86

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