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

Components were solubilized from human glomerular basement membrane by digestion with collagenase and pepsin or by extraction with guanidine-HCl either directly or after previous digestion with the enzyme. The diverse preparations were used as antigens in the enzyme-linked immunosorbent assay (ELISA) of antibody titers in sera from patients with Goodpasture syndrome and patients with other forms of glomerulonephritis, that is, systemic lupus erythematosus, periarteritis nodosa, and IgA-related nephropathy. Patients with Goodpasture syndrome had high titers of IgG antibodies reacting most strongly with collagenase digests. The antigen(s) was only partly solubilized by guanidine-HCl extraction, was destroyed by pepsin digestion as well as reduction, and partly destroyed by trypsin digestion. The antigen(s) is most likely noncollagenous protein. Antibodies from patients with other forms of nephritis were directed primarily against antigens in guanidine-HCl extracts, while the antigen(s) was not solubilized by collagenase digestion. Pepsin digestion destroyed the antigen(s). The antibodies were of a different class, that is, the patients with systemic lupus erythematosus had IgG and IgA as well as IgM antibodies; the patients with periarteritis nodosa had IgM or IgG and IgA antibodies, while the patients with IgA-related nephritis had the highest recorded titers of IgA but also had IgG as well as IgM antibodies. None of the patients had antibodies directed against triple helical collagen. The antibody response in anti-GBM antibody-related nephritis, then, is different both with respect to antigen and antibody class and depends on the underlying disease syndrome.
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PMID:Antiglomerular basement membrane antibody: antibody specificity in different forms of glomerulonephritis. 613 25

RNA was extracted from fetal calf skin by two different procedures, using phenol or guanidine hydrochloride. Poly(A)-rich RNA was separated by oligo(dT)-cellulose affinity chromatography and was further fractionated by sucrose density gradient centrifugation. When translated in an optimized wheat germ extract cell-free system, unfractionated guanidine-hydrochloride-extracted poly(A)-rich RNA directed the synthesis of two collagenase-sensitive protein bands, while phenol-extracted poly(A)-rich RNA with a sedimentation coefficient higher than 25 S was the only fraction to direct the same synthesis. On the basis of their electrophoretic mobility on a sodium dodecylsulfate/urea/polyacrylamide gel, these proteins were identified with procollagen alpha 1(I) and procollagen alpha 2. Inhibition of translation by phenol-extracted poly(A)-rich RNA with a sedimentation coefficient lower than 25 S was also observed. Guanidine-hydrochloride-extracted poly(A)-rich RNA from fetal skin directed the synthesis of three distinct collagenase-sensitive proteins in the micrococcal-nuclease-digested rabbit reticulocyte cell-free system; these seemed to correspond to procollagen alpha 1(I), procollagen alpha 2 and procollagen alpha 1 (III).
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PMID:Extraction and translation of collagen mRNA from fetal calf skin. 615 27

Well characterized monospecific antisera against pepsin-extracted bovine type VI collagen were used to identify and characterize the intact form of type VI collagen. In immunoblotting experiments the antisera reacted with the pepsin-resistant fragments of the alpha 1(VI) and alpha 3(VI) chains, but not with the fragment of the alpha 2(VI) chain. Extracts obtained from uterus and aorta with 6 M guanidine HCl contained two immunoreactive polypeptides of Mr = 190,000 and 180,000 based on globular protein standards. Cleavage of extracts with pepsin generated the previously characterized pepsin-resistant fragments of alpha 1(VI) and alpha 3(VI), indicating that the higher molecular weight polypeptides represent the intact parent chains, alpha 1(VI) and alpha 3(VI). Digestion of extracts with bacterial collagenase released an Mr = 100,000 noncollagenous fragment from the alpha 1(VI) chain. Thus, intact type VI collagen in tissues contains a relatively short triple helical domain and at least one very large globular domain which is sensitive to pepsin but resistant to collagenase digestion. Immunoblotting revealed a polypeptide of Mr = 240,000, which we suggest represents the pro-alpha 1(VI) chain, in the culture medium of bovine fibroblasts. Bands intermediate in molecular weight between 240,000 and 190,000 were identified in cell layers. These findings establish type VI collagen as a protein with very large nontriple helical domains, a property that undoubtedly plays an important role in its function.
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PMID:Characterization of the precursor form of type VI collagen. 620 13

Various forms of heparan sulfate proteoglycan were solubilized from the mouse Engelbreth-Holm-Swarm (EHS) sarcoma by extraction with 0.5 M NaCl, collagenase digestion and extraction with 4 M guanidine. They could be separated into high (greater than or equal to 1.65 g/ml) and low (1.38 g/ml) buoyant density variants. The high-density form from the NaCl extract and collagenase digest had Mr = 130000 and So20,W = 4.5 S and contained 4-10% protein, indicating Mr = 5 000-12 000 for the protein core. This proteoglycan exhibited polydispersity as shown by rotary shadowing electron microscopy and ultracentrifugation. An average molecule consisted of four heparan sulfate chains (Mr = 29 000) each with a length of 32 +/- 10 nm. The low-density form (Mr about 400 000) could not be completely purified and contained about 50% protein. As shown by radioimmunoassay, the various proteoglycans shared similar protein cores. Labeling of the tumor in vivo or in vitro demonstrated preferential incorporation of radioactive sulfate in the high-density form. The high-density proteoglycan interacted in affinity chromatography by virtue of its heparan sulfate chains with laminin, fibronectin, the globular domain NC1 and the triple helix of collagen IV. These interactions were abolished at moderate concentrations of NaCl (0.1-0.2 M) and in the presence of heparin, chondroitin sulfate or dextran sulfate. Interactions with the globule NC1 could also be demonstrated by velocity band centrifugation in sucrose gradients and a binding constant of about 10(6) M-1 was derived.
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PMID:Structure and interactions of heparan sulfate proteoglycans from a mouse tumor basement membrane. 623 80

Proteoglycans were prepared from rabbit articular cartilages by classical techniques employing 4.0 M guanidine. HCl by transport ultracentrifugation techniques on the purified proteoglycans, present. A new method of extracting the cartilage with 0.4 M guanidine. HCl in the presence of highly purified collagenase is presented. The same yield of proteoglycans on extraction of normal cartilage was obtained as with the classical technique, but a larger proportion of intermediate and large aggregates was obtained with the new than with the classical methodologies. The osteoarthritic cartilage was obtained from 6 month old animals, 3 months after a partial medial meniscectomy had been performed. The profile of proteoglycans from osteoarthritic cartilage consisted predominately of monomers, and a small content of aggregates spread over intermediate and large size ranges. It is postulated that by the methods of extraction, the profile of proteoglycan aggregates present in vivo is more faithfully reproduced than obtained by the classical methodologies.
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PMID:Application of new techniques to separation of proteoglycan aggregates from normal and destabilized rabbit articular cartilages. 624 43

A new type of collageneous structure, tentatively named 7-S collagen, was isolated from a mouse tumor basement membrane, mouse and human placenta, bovine lens capsule and human kidney. The protein was solubilized from the tissues by limited digestion with pepsin or trypsin and could easily be separated from other collageneous protein because of its resistance towards further degradation by bacterial collagenase at 20 degrees C. 7-S collagen showed an amino acid composition typical of basement membrane collagen and contained 22% carbohydrate mainly as glucosyl-galactosyl bound to hydroxylysine but also some mannose and glucosamine. Ultracentrifugal analysis demonstrated that the proteins were homogeneous with a sedimentation coefficient of about 7.2 S and with a molecular weight of about 360,000 both in phosphate buffer pH 7 and 6 M guanidine. The peptide was triple helical as shown by circular dichroism and exhibited a biphasic melting profile indicating two conformationally distinct domains with tm = 48 degrees C and 70 degrees C. The more stable domain could be isolated as an homogeneous fragment (Mr = 225,000) after a second digestion with collagenase at 37 degrees C. This fragment contained all the disulfide bonds (42 Cys/1,000 residues) of the original molecule. Electron microscopy showed a rod-like structure in agreement with the hydrodynamic properties of 7-S collagen. The dimensions of these peptides were 3 X 95 nm (long form) and 2.4 X 40-50 nm (short form). Complete reduction of 7-S collagen under denaturing conditions produced several polypeptide chains in the molecular weight range of 27,000-153,000 which differ from each other by Mr increments 25,000-27,000. Separation of the chains on agarose did not reveal any simple stoichiometric relationship indicating that some chains are either cross-linked or represent fragments produced during proteolytic treatments. Complete reduction of 7-S collagen under non-denaturing conditions lowered the thermal transiton of the triple helix to 48 degrees C but did not change its molecular weight except when exposed to dissociating solvents. 7-S collagens were potent immunogens and could be characterized by radioimmunoassays. Antigenicity was slightly reduced by reduction and denaturation while collagenase at 37 degrees C produced a larger decrease. Proteins obtained from various sources showed distinct immunological relationships although interspecies differences in affinity exist. No or only little cross-reaction was observed with type IV and V collagens and some further fragments of basement membrane collagen. The data indicate that 7-S collagen is a unique component of basement membranes which shows a more compact and stable structure than other collageneous proteins.
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PMID:7-S collagen: characterization of an unusual basement membrane structure. 625 Aug 29

The interaction of human blood platelets with collagenase-treated rabbit subendothelium was studied by histochemical ultrastructural methods and by morphometric semi-quantitative analysis. Aortas were deendothelialized and incubated: 1) with a highly purified bacterial collagenase whose specificity was controlled; and 2) with the same collagenase followed by chymotrypsin. For histochemical studies, tannic acid, ruthenium red, and peroxidase-labeled Ricinus communis and concanavalin A were used. Electron microscopy showed that after digestion of fibrillar collagen by collagenase, adherent and aggregated platelets were observed on Ricinus communis-, concanavalin A-, and ruthenium red-positive glycoprotein microfibrils. After successive incubation with collagenase and chymotrypsin, the microfibrils disappeared. No platelets were observed on the remnant amorphous elastin. Morphometric analysis confirmed the interaction of platelets with collagenase-treated subendothelium. In addition, glycoproteins were extracted from collagenase-treated rabbit aortas using 5 M guanidine. Using an in vitro quantitative test, significant platelet adhesion to these glycoproteins was observed. Our results show an interaction between platelets and noncollagenic glycoprotein microfibrils.
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PMID:Histochemical and ultrastructural characterization of subendothelial glycoprotein microfibrils interacting with platelets. 627 53

The permeability to various cations of the voltage-dependent sodium channel of rat single heart cells has been studied under the current or voltage clamp conditions. The cells, dispersed by collagenase treatment, were perfused internally using a suction pipette technique. The permeability sequence, estimated from the effects of various cations on the maximum rate of rise of action potential or from either the peak amplitude or the reversal potential of the inward current was Na+ greater than Li+ greater than hydrazine greater than guanidine greater than formamidine greater than hydroxylamine greater than methylguanidine greater than monomethylamine. The ionic permeability of a compound was markedly diminished by methylation. All inorganic and organic cation currents were reduced in the presence of tetrodotoxin, a specific Na+ channel blocker. It would appear that the ionic selectivity of the sodium channel of rat single heart cells is similar to the selectivity in the squid axon and of that in the myelinated nerve of the frog.
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PMID:Permeability to various cations of the voltage-dependent sodium channel of rat single heart cells. 631 67

When skeletal, cardiac, and smooth muscle is exhaustively extracted with a protein-unfolding reagent such as 6 M guanidine HCl and a disulfide-reducing reagent such as 5% beta-mercaptoethanol, a tissue ghost remains intact and retains the characteristic shape and dimensions of the tissue before extraction. In the case of chicken pectoral muscle, the tissue ghost contains 1% of the original muscle proteins. Guanidine HCl extraction followed by collagenase treatment of glycerol-extracted chicken pectoral muscle releases a clean preparation of elongated structures containing 0.2% of the original protein and representing the covalently cross-linked remnants of the muscle fibers. The material of these muscle fiber ghosts extends throughout the interior of the cell. Antibodies raised against the tissue ghosts of smooth muscle cross-react with glycerol extracted skeletal myofibrils, forming a banding pattern which coincides with the banding pattern observed when myofibrils are reacted with antibodies against titin. Titin, a large and soluble protein found in skeletal muscle, cross-reacts with our antigizzard antibody. However, amino acid analysis of the muscle fiber ghosts indicates that titin cannot be the only subunit of the insoluble polymer, but that one or more proteins with a very high glycine and alanine content and a very low basic and acidic amino acid content must also form part of the covalently cross-linked matrix. The possibility is presented that this matrix may be the basis of the superthin 2-3-nm filaments which have been observed in a variety of cell types.
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PMID:A covalently cross-linked matrix in skeletal muscle fibers. 636 89

A proteinase inhibitor which has strong anti-collagenase activity was found in chicken egg white. The inhibitor (pI = 4.9) was purified by poly(ethylene glycol) (5.5-10%) precipitation and chromatography on Ultrogel AcA 34, DEAE-cellulose, and Sephacryl S-300. The final product was homogeneous on 5% polyacrylamide gel electrophoresis. Stoichiometric inhibition was observed with the inhibitor and rabbit synovial collagenase and thermolysin (1:1 molar ratio with thermolysin). The inhibitor ran on sodium dodecyl sulfate-gel electrophoresis with reduction as a single protein band of Mr = 165,000. The molecular weight of the native inhibitor was estimated to be 780,000 by sedimentation equilibrium centrifugation. Centrifugation analysis in 6 M guanidine hydrochloride and of the reduced sample gave M omega = 380,000 and M omega = 195,000, respectively, where M omega is the weight-average molecular weight determined by equilibrium ultra-centrifugation. The results indicated that the inhibitor molecule is a tetramer of identical subunits linked in pairs by disulfide bonds. Since the molecular weight and the quaternary structure of the inhibitor were similar to those of alpha 2-macroglobulin (alpha 2M) in plasma, chicken alpha 2M was isolated and compared with the inhibitor. The inhibitor was not sensitive to methylamine, whereas chicken alpha 2M was. No immunocross-reactivity was observed between the inhibitor and chicken alpha 2M. The NH2-terminal sequence of the egg white inhibitor is Lys-Glu-Pro-Glu-Pro-Gln-Tyr-Val-Leu-Met-Val-Pro-Ala. The sequence of chicken alpha 2M is Ser-Thr-Val-Thr-Glu-Pro-Gln-Tyr-Met-Val-Leu-Leu-Pro-Phe. Considerable homology was found between the two sequences and to the NH2-terminal sequence of human alpha 2M. Monospecific antibody raised against the egg white inhibitor was employed to examine the tissue distribution of the inhibitor. The inhibitor was found only in oviduct and egg white, but not in other tissues or serum of chickens.
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PMID:Ovostatin: a novel proteinase inhibitor from chicken egg white. I. Purification, physicochemical properties, and tissue distribution of ovostatin. 640 74


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