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: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We isolated osteoblastic cells derived from human periosteum and established them in culture. Their growth depended on the presence of ascorbic acid, and the doubling time was 40 to 60 h. The requirement for ascorbic acid was used to high production of collagen. These cells produced mainly type I collagen and only small amounts of type III collagen determined by reducing sodium dodecyl sulfate SDS-polyacrylamide gel electrophoresis. The total collagen yield was about 10 mg from 2 X 10(7) cells. The cells could be continuously cultured in alpha-minimum essential medium supplemented with 10% fetal bovine serum for 18 to 40 population doubling levels, depending on the age of the donated periosteum. These cells have the ability to calcify when incubated with 2 mM alpha-glycerophosphate-Na2. Calcification as viewed by the naked eye appeared from Day 15 after treatment. Treatment with the active formed vitamin D3, 1, 25 dihydroxyvitamin D3 enhanced calcification significantly and stimulated osteocalcin production. By electron microscopy, cells with many projections on their surfaces showed well-developed rough endoplasmic reticulum and actinlike fibers, and larger numbers of lysosomes, mitochondria, and secretion granules. Many matrix vesicles, in which minerals were initially localized, and well-banded collagen fibrils were seen in the intercellular spaces. These observations demonstrate typical osteoblastic morphology. The above results indicate that cultured cells from human periostem are osteoblastic cells that have the capacity to differentiate into osteocytes and to deposit calcified minerals in response to 1,25 dihydroxyvitamin D3.
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PMID:Establishment of human osteoblastic cells derived from periosteum in culture. 278 88

In order to elucidate the biochemical mechanism of laser welding of tissues, we have compared protein profiles from argon laser-treated specimens with controls. Extracellular matrix components from untreated and laser-welded skin and blood vessels were extracted with guanidine hydrochloride and separated by SDS polyacrylamide gel electrophoresis. When compared with matched, untreated tissues, protein electrophoretic profiles from laser-treated samples showed several changes. In both tissue types, argon laser treatment decreased the concentration of a 235 kd protein that migrates between the alpha and beta chains of type I collagen. Laser-treated blood vessels showed significantly more low molecular weight protein at the dye front than in control tissue, whereas significantly more high molecular weight protein appeared in laser-treated skin samples when compared with untreated tissue. These results suggest that the argon laser may either degrade or crosslink proteins in vivo. Laser-induced protein crosslinks may be the biochemical basis of argon laser welding.
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PMID:Crosslinking of extracellular matrix proteins: a preliminary report on a possible mechanism of argon laser welding. 281 72

In this report we describe the isolation and characterization of a neutral metalloproteinase, from human small cell lung cancer cells, which degrades a wide range of connective tissue proteins. Treatment of tumor cytosol by ammonium sulphate precipitation followed by zinc chelated column chromatography, anion exchange chromatography, and gel filtration chromatography yielded a single enzymatically active protein, which on SDS-PAGE appeared as a diffuse band of 65,000-70,000 daltons. The tumor metalloproteinase, which was inhibited by metal chelators and serum, was able to digest gelatin, type I collagen, type IV collagen, laminin, and fibronectin. We propose that the capacity of this proteinase to degrade both components of blood vessel basement membranes and other connective tissue matrices facilitates the dissemination of human lung cancer cells during the multistep process of metastasis.
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PMID:Characterization of a connective tissue degrading metalloproteinase from human small cell lung cancer cells. 283 54

The in vitro effects of dexamethasone on condylar cartilage from normal newborn mice were tested by measuring protein and DNA content, collagen synthesis, prolyl hydroxylase activity, collagen chains and by immunofluorescence the localization of type I and II collagen and fibronectin. The biochemical assays were complemented by structural studies of hormone-treated and control cultured specimens. It became apparent that both the protein and DNA content of the tissue decreased immediately following the addition of dexamethasone of the incubation system. Protein synthesis was significantly decreased by the hormone by 24 h. The degree of collagen hydroxylation was decreased by 24 h. Dexamethasone-treated condyles did not reveal a significant increase in the percentage of cold hydroxyproline of the total protein. Using the indirect immunofluorescence method, hormone-treated condyles revealed an enhancement of positive reactivity for type I collagen and fibronectin. SDS-gel electrophoresis of 3H-labeled collagen chains isolated by CM-cellulose chromatography indicated that dexamethasone did not significantly affect the ratios of the collagen chains. For further characterization, each chain was subjected to cyanogen bromide cleavage showing that the peptide maps of alpha 1(I) and alpha 1(II) chains were not different in dexamethasone-treated tissues in comparison to controls.
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PMID:Dexamethasone impairs growth and collagen synthesis in condylar cartilage in vitro. 284 91

We report a one-step method for the purification to homogeneity of a cysteine proteinase of Entamoeba histolytica (histolysin) by affinity chromatography of the soluble extract of the parasite on immobilized phenylalanyl(2-phenyl)aminoacetaldehyde semicarbazone. The enzyme has an apparent Mr of 26,000 by SDS/polyacrylamide-gel electrophoresis and 29,000 by gel chromatography. Its pH optimum varies widely, from 5.5 with azocasein to approx. 7 with other protein substrates and benzyloxycarbonylphenylalanyl-L-citrullylaminomethylcourmarin++ + (Z-Phe-Cit-NHMec), and to 9.5 with benzyloxycarbonylphenylalanylarginylaminomethylcoumarin (Z-Phe-Arg-NHMec) and benzyloxycarbonylarginylarginylaminomethylcourmarin (Z-Arg-Arg-NHMec). Values of Km, kcat. and kcat/Km are 1.5 microM, 130 s-1 and 87 X 10(6) M-1.s-1 for Z-Arg-Arg-NHMec, and 32 microM, 0.4 s-1 and 0.012 x 10(6) M-1.s-1 for Z-Phe-Arg-NHMec, respectively, at pH 7.5 and 37 degrees C. The enzyme is inhibited by leupeptin and such inhibitors of cysteine proteinases as L-transepoxysuccinyl-L-leucylamido-4-(guanidino)butane, peptidyldiazomethanes, iodoacetic acid and chicken cystatin. The tentative N-terminal amino acid sequence of the enzyme closely resembles that of papain. Histolysin does not degrade type I collagen or elastin, but it is active against cartilage proteoglycan and kidney glomerular basement-membrane collagen. It also detaches cells from their substratum in vitro, and could well play a role in tissue invasion.
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PMID:Affinity purification and biochemical characterization of histolysin, the major cysteine proteinase of Entamoeba histolytica. 289 37

A dipeptidyl aminopeptidase (DPP) was detected in plasma membranes from normal (3T3) and transformed (3T12) mouse fibroblasts. This enzyme was active in cleaving the prolyl bond in the synthetic dipeptide nitroanilide Gly-Pro-NH-Np, which is a specific substrate for DPP IV (Km 0.63 mM and Vmax 6.1 nmol/min per mg at pH 6.0 and 37 degrees C). However, it did not degrade Pro-NH-Np or other dipeptide nitroanilides such as Gly-Arg-NH-Np or Val-Ala-NH-Np. The enzyme was totally inhibited by di-isopropyl phosphorofluoridate (Pri2-P-F) and by phenylmethanesulphonyl fluoride, indicating a serine catalytic site for the proteinase. DPP IV is a glycoprotein that specifically recognized immobilized gelatin and type I collagen. Upon molecular exclusion chromatography, the proteinase exhibited an apparent Mr of 100,000. SDS/polyacrylamide-gel electrophoresis under non-reducing and reducing conditions revealed that the [3H]Pri2-P-protein was exclusively represented by a polypeptide of Mr 55,000. This suggested that DPP IV consists of two non-covalently linked 55,000-Mr subunits. Fibroblast adhesion to native or denatured collagen was significantly inhibited by the two dipeptide inhibitors of DPP IV, Gly-Pro-Ala and Ala-Pro-Gly, but not by the peptides Gly-Pro and Gly-Gly-Gly, which are not inhibitors of the proteinase. Moreover, preliminary fractionation of DPP IV by molecular exclusion chromatography and affinity chromatography indicated that this material was active in disrupting cell adhesion to collagens. Taken together, the above data suggest that a fibroblast membrane-associated collagen-binding glycoprotein, DPP IV, may play a role in cell attachment to collagen.
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PMID:A collagen-binding glycoprotein on the surface of mouse fibroblasts is identified as dipeptidyl peptidase IV. 290 31

Gold sodium thiomalate, a drug used widely in the therapy of rheumatoid arthritis, was found to be an activator of latent human polymorphonuclear leukocyte collagenase. The activation was demonstrated by two distinct and independent collagenase assays: by recording with a spectrophotometer at 227 nm the enzyme-induced increase in ultraviolet difference absorbance of native type I collagen connected to the cleavage of collagen at 37 degrees C [(1986) Eur. J. Biochem. 156, 1-4] and by SDS-polyacrylamide gel electrophoresis analysis of formation of specific products of collagen resulting from collagenase cleavage at 25 degrees C. Activation of latent collagenase by gold sodium thiomalate appeared to be of the same magnitude as by the known activator phenylmercuric chloride.
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PMID:Gold sodium thiomalate activates latent human leukocyte collagenase. 302 35

Platelet membrane components adhering with high affinity to collagen fibers were studied by means of an affinity column in which fibrillar type I collagen was physically immobilized. Intact rabbit platelets in 1 mM EGTA adhered to the column but did not aggregate. Adhesion was dependent on the collagen concentration and on the number of platelets applied. Passage through the column without adhesion did not affect the potential for subsequent platelet binding. Surface-labelled whole platelets were passaged through this column, lysed in Triton and in SDS and labelled components adhering to the collagen were analysed on SDS-polyacrylamide gels. It was found that Triton lysis removed most of the major surface glycoproteins but left the cytoskeleton on the column. Subsequent SDS elution removed the cytoskeletal proteins along with the remaining major surface glycoproteins. The label left on the column could not be eluted with 8 M urea or up to 4 M NaCl. Collagenase digestion of the column collagen released a single surface glycoprotein of Mr 80,000. Limited chymotryptic digestion of the labelled platelets prior to their application to the column did not affect their binding. A radiolabelled band of the same molecular weight (MW) became bound to the collagen following passage of the chymotrypsin-treated platelets. This band was trypsin-sensitive following SDS-polyacrylamide gel electrophoresis (SDS-PAGE). These results, along with other published evidence, suggest that at least one platelet membrane component, expressed on the surface of the unstimulated platelet, binds with high affinity to fibrillar type I collagen and is probably involved in platelet collagen recognition.
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PMID:Identification of a surface protein of the rabbit blood platelet with high affinity for collagen. 302 23

The alveolar epithelial basement membrane is believed to play important roles in lung development, in maintaining normal alveolar architecture, and in guiding repair following lung injury. However, little is known about the formation of this structure, or of the mechanisms which mediate interactions between the epithelium and specific matrix macromolecules. Since type IV collagen is a major structural component of basement membranes, we investigated the production of type IV collagen-binding proteins by primary cultures of rat lung type II pneumocytes. Cultures were labeled for up to 24 h with 3H-labeled amino acids or [3H]mannose. Soluble collagen-binding proteins which accumulated in the culture medium were isolated by chromatography on collagen-Sepharose and examined by SDS-polyacrylamide gel electrophoresis. The major type IV collagen-binding protein (CBP1) was identified as fibronectin. We also identified a novel disulfide-bonded collagen-binding glycoprotein (CBP2; Mr = 45,000, reduced). This protein was not recognized by polyclonal antibodies to fibronectin, and showed no detectable binding to denatured type I collagen. The protein was resolved from fibronectin and partially purified by sequential chromatography on gelatin and type IV collagen-Sepharose. We suggest that type II pneumocyte-derived collagen-binding proteins contribute to the formation of the epithelial basement membrane and/or mediate the attachment of these cells to collagenous components of the extracellular matrix.
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PMID:Collagen-binding proteins secreted by type II pneumocytes in culture. 303 Apr 46

Gelatinase has been partially purified from exudate in the acute phase of carrageenin-induced inflammation in rats. The enzyme occurs in a latent form that can be activated with 4-aminophenylmercuric acetate (APMA). The latent gelatinase was separated into an active gelatinase and a protein fraction by zinc-chelating Sepharose 6B column chromatography in the final step of purification, suggesting that the latent gelatinase is an enzyme-inhibitor complex. The pH optimum of the active gelatinase is about 7.5 and no reactivity toward native type I collagen or alpha-casein was detected. The molecular weights of the latent and active gelatinases were about 245,000 and about 185,000, respectively, as determined by gel filtration on Sephadex G-200. On the other hand, both latent and active gelatinases occurred in multiple forms in SDS-substrate polyacrylamide gel electrophoresis; the latent gelatinase showed two bands with molecular weights of 105,000 and 69,000, and two additional bands of 88,000 and 83,000 appeared when the latent gelatinase was activated with APMA, while the active gelatinase showed all four species. The active gelatinase was inhibited by metallo-proteinase inhibitors, but not by serine- or cysteine-proteinase inhibitors, suggesting that the exudate gelatinase is a metallo-proteinase. The active gelatinase was also inhibited by serum proteins such as albumin and gamma-globulin, suggesting that gelatinase does not remain in an active form in the inflammatory lesion, where the vascular permeability is increased.
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PMID:Partial purification and characterization of exudate gelatinase in the acute phase of carrageenin-induced inflammation in rats. 303 18


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