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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)

Microfibrillar elements were isolated from developing and formed bovine dental pulp by a procedure involving bacterial collagenase tissue digestion and chromatography on Sepharose CL-2B. Two microfibrillar assemblies could be demonstrated. Type VI collagen microfibrils with a characteristic periodicity of about 100 nm appeared as long, thin, flexible filaments. In a number of cases these structures aggregated by lateral association. Microfibrils of 10-14 nm dia were identified as containing fibrillin on the basis of their distinctive, periodic, beaded morphology. In addition to long, single strands there were instances of chains coalescing to give amorphous aggregates. No differences in the type of microfibrillar assemblies were evident between developing and formed pulp, although fibrillin-containing microfibrils were more abundant in formed pulp.
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PMID:Microfibrillar components in dental pulp: presence of both type VI collagen- and fibrillin-containing microfibrils. 147 56

Human vascular smooth muscle cells have been used to assess the implied role of connective tissue microfibrils as cellular ligands. Preparations of intact high-M(r) microfibrillar assemblies of collagen VI and of fibrillin, respectively, were isolated from foetal bovine skin and used as ligands in cell attachment and spreading assays. Intact collagen VI microfibrils were capable of mediating cell attachment and partial spreading. Cell attachment assays using ligands composed of defined collagen VI fragments generated by pepsin or bacterial collagenase digestions demonstrated that both the triple-helical and non-collagenous domains of collagen VI had cell adhesion activity, although at reduced levels relative to intact microfibrils. Fibronectin was identified as a modulator of intact collagen VI microfibril-mediated cell attachment. These observations are indicative of complex multiple interactions between collagen VI microfibrils and smooth muscle cells. Purified fibrillin-containing microfibrils were also shown to support smooth muscle cell adhesion. Both pepsin-resistant and pepsin-sensitive domains of fibrillin exhibited some cell attachment activity, but at reduced levels relative to the intact fibrillin microfibrils. These data provide the first direct evidence of a physiological role for intact microfibrillar assemblies in cell-matrix interactions, and the involvement of integrin cell surface receptors containing the beta 1 subunit.
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PMID:Attachment of human vascular smooth muscles cells to intact microfibrillar assemblies of collagen VI and fibrillin. 147 46

Rotary shadowing of zonular fibrils in human and bovine eyes revealed a "string of beads" configuration with multiple interconnecting filaments, identical to that recently reported in fibrils of unknown type within the vitreous. These 29 nm beaded fibrils were the only macrostructures present in zonular samples, showing ultrastructural features correlating with both the macro and microperiodicity of zonular fibrils in tissues. Interbead periodicity varied from 30-57 nm and interbead filaments appeared capable of stretching even further, possibly explaining the inherent elasticity of zonular fibrils. The junctions between outer filaments and beads were fibrillin-positive. Similar beaded fibrils were found in the human and bovine anterior vitreous along with type II and IX collagen fibrils, proteoglycan filaments and other unidentified fibrils. After collagenase and elastase digestion, bovine ligamentum nuchae showed type VI collagen fibrils and clumps of beaded fibrils like those in zonule and vitreous. This distribution indicates that the beaded fibril is the microfibril which constitutes the basic unit of the elastic system.
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PMID:Rotary shadowing of elastic system microfibrils in the ocular zonule, vitreous, and ligamentum nuchae. 170 1

Extensive intact assemblies of matrix macromolecules have been solubilized from foetal calf skin, nuchal ligament and aorta by a new procedure that includes bacterial collagenase digestion under non-reducing, non-denaturing conditions and gel filtration chromatography. Type VI collagen was identified as the major microfibrillar element of these tissues by SDS-PAGE analysis and Western blotting. Rotary shadowing electron microscopy of these preparations revealed by far the most abundant and extensive arrays of intact collagen VI microfibrils isolated to date. The distinct microfibrillar species, fibrillin, which was identified on the basis of its periodicity and morphology, was also solubilized in abundance by this protocol. Analysis of these complex polymers has generated new information on their supramolecular architecture and relative abundance in these tissues. The protocol also demonstrates that the release of intact collagen VI microfibrils from these tissues is largely dependent on the removal of the major collagen fibrils.
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PMID:Isolation and ultrastructural analysis of microfibrillar structures from foetal bovine elastic tissues. Relative abundance and supramolecular architecture of type VI collagen assemblies and fibrillin. 177 7

A new connective tissue protein, which we call fibrillin, has been isolated from the medium of human fibroblast cell cultures. Electrophoresis of the disulfide bond-reduced protein gave a single band with an estimated molecular mass of 350,000 D. This 350-kD protein appeared to possess intrachain disulfide bonds. It could be stained with periodic acid-Schiff reagent, and after metabolic labeling, it contained [3H]glucosamine. It could not be labeled with [35S]sulfate. It was resistant to digestion by bacterial collagenase. Using mAbs specific for fibrillin, we demonstrated its widespread distribution in the connective tissue matrices of skin, lung, kidney, vasculature, cartilage, tendon, muscle, cornea, and ciliary zonule. Electron microscopic immunolocalization with colloidal gold conjugates specified its location to a class of extracellular structural elements described as microfibrils. These microfibrils possessed a characteristic appearance and averaged 10 nm in diameter. Microfibrils around the amorphous cores of the elastic fiber system as well as bundles of microfibrils without elastin cores were labeled equally well with antibody. Immunolocalization suggested that fibrillin is arrayed periodically along the individual microfibril and that individual microfibrils may be aligned within bundles. The periodicity of the epitope appeared to match the interstitial collagen band periodicity. In contrast, type VI collagen, which has been proposed as a possible microfibrillar component, was immunolocalized with a specific mAb to small diameter microfilaments that interweave among the large, banded collagen fibers; it was not associated with the system of microfibrils identified by the presence of fibrillin.
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PMID:Fibrillin, a new 350-kD glycoprotein, is a component of extracellular microfibrils. 353 67

The principal component of the body wall of the sea cucumber Cucumaria frondosa is a dermis consisting of collagen fibrils, microfibrils, proteoglycans and other soluble and insoluble components. A major structural constituent of the dermis is a network of 10­14 nm diameter microfibrils, which surrounds and penetrates bundles of collagen fibrils. This network has been extracted and purified using guanidine and bacterial collagenase. Tensile testing of the microfibrillar network in artificial sea water demonstrates that it is reversibly extensible up to approximately 300 % of its initial length. It behaves like a viscoelastic solid, having a long-range elastic component as well as a time-dependent viscous component. Reduction and alkylation of the cysteine residues in the network do not change its breaking strain or strength, but greatly increase the compliance of the network until, near the breaking strain, the tensile resistance rapidly increases. These data suggest that the strength of the network is due to non-reducible crosslinks, while its elasticity is dependent upon disulfide bonds. In deionized water, the network becomes swollen and, although it remains elastic, is much more compliant than when tested in artificial sea water. Examination of whole tissues and purified networks with the electron microscope reveals structures similar to vertebrate fibrillin-containing microfibrils. Considering that the dermis of C. frondosa is a mechanically mutable tissue in which elongation is accompanied by the sliding of collagen fibrils past one another, the microfibrillar network may act to maintain the orientation of fibrillar components during movement and may also provide a long-range restoring force.
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PMID:Morphology and biomechanics of the microfibrillar network of sea cucumber dermis 931 29

A method is described for the purification of collagen VI microfibrils and fibrillin-containing microfibrils, respectively. High M(r) microfibril-rich preparations isolated from nuchal ligament by bacterial collagenase digestion and size fractionation were purified by CsCl density gradient centrifugation. Localization of collagen VI and fibrillin within the gradient was achieved by SDS-PAGE/Western blotting. Large collagen VI microfibrillar aggregates were present at the top of the gradient. Hyaluronidase pretreatment dissociated these aggregates and enabled purification of collagen VI microfibrils at a density of 1.33 g/ml. Fibrillin-containing microfibrils separated at 1.37 g/ml and copurified with MAGP1, but not LTBP1, LTBP2, or fibronectin. Confirmation of the intact status of the purified microfibrils was obtained by rotary shadowing. The ability to separate and purify these complex macromolecules provides a powerful means of addressing their molecular composition, organization, and structure:function relationships.
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PMID:Purification of fibrillin-containing microfibrils and collagen VI microfibrils by density gradient centrifugation. 944 48

The dermis of the sea cucumber Cucumaria frondosa is a mutable collagenous tissue composed of collagen fibrils, microfibrils, proteoglycans, and other soluble and insoluble components. A major constituent of the dermis is a network of 10-14 nm microfibrils which surrounds and penetrates bundles of collagen fibrils. These microfibrils, which are morphologically very similar to the fibrillin microfibrils of vertebrates, were found to be insoluble in protein denaturants, including chaotropic agents and ionic and nonionic detergents, regardless of the reduction of disulfide bonds. The microfibrils are covalently crosslinked by epsilon-(gamma-glutamyl)lysine at a concentration of 3.725 nmol/mg dry weight of purified insoluble material. The network is susceptible to proteolysis by trypsin, chymotrypsin, and pancreatic elastase, but not by bacterial collagenase. Amino acid compositional analysis of the network shows it to be composed of 25% ASX and GLX residues. Comparison with the proteins in the SwissProt database gives the network protein a high probability of being related to the mammalian protein fibrillin. The network is glycosylated: approximately 7% of the mass is constituted by neutral and amino sugars. The intact microfibrillar network cross-reacted with a well-characterized antiserum to mammalian fibrillin.
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PMID:Partial biochemical and immunologic characterization of fibrillin microfibrils from sea cucumber dermis. 951 89

Penetrating atherosclerotic aortic ulcers (PAU) can cause aortic dissection. Of 38 autopsy cases with aortic dissection, 6 (15.8%) had severe atherosclerotic changes, resembling those of PAU, at the site of entry (SE). Clinicopathological data on these patients were compared with those on 32 cases with nonatheromatous dissection (5 with Marfan syndrome or its forme fruste and 27 without Marfan syndrome) and 13 with atherosclerotic saccular aneurysms. For control study, the aorta of a 44-year-old woman who died of pulmonary cancer was used. Compare to nonatheromatous dissection, atherosclerosis-related aortic dissections were found in older women. Four cases were complicated by saccular aneurysms of the aorta. The SE was located in the ascending aorta in 1 and the descending aorta in 5. These sites usually were ulcerated atheromatous plaques or longitudinal fissures rather than transverse tears. Immunohistochemical examination of the SE revealed that MMP-1, 2, 9 and TIMP-2 were expressed in macrophages and/or interstitium, similar to the findings in atheromatous plaque or PAU. We propose that atherosclerosis-related aortic dissection differs from the usual classical aortic dissection. Patients with this lesion have a high risk of re-dissection from the new SE in the same lesion.
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PMID:[Atherosclerosis-related aortic dissection]. 1071 6

Synthesis of extracellular matrix (ECM) proteins and their degradation by matrix metalloproteinases (MMP) are part of the dermal remodeling resulting from chronic exposure of skin to ultraviolet radiation (UVR). We have compared two alternative mechanisms for these responses, namely, a direct mechanism in which UV-B or UV-A is absorbed by fibroblasts and an indirect mechanism in which cytokines, produced in skin in response to UVR, stimulate production of the ECM proteins and MMP. These studies were carried out on human dermal fibroblasts grown in contracted, free-floating 9 day old collagen gels as a dermal equivalent. Synthesis of tropoelastin, collagen, fibrillin, MMP-1, -2, -3 and -9 and tissue inhibitors of metalloproteinases (TIMP)-1 and -2 were measured. Tropoelastin, collagen and fibrillin levels were stable between days 4 and 10, and MMP and TIMP decreased by day 10. Neither UV-B (2.5-50 mJ/cm2) nor UV-A (2-12 J/cm2) altered synthesis of ECM proteins, but UV-A increased MMP-1 and -3 production. Tropoelastin synthesis increased in response to transforming growth factor-beta1 (5 ng/mL) treatment. Both interleukin-1beta and tumor necrosis factor-alpha (10 ng/mL) decreased fibrillin messenger RNA levels but increased MMP-1, -3 and -9 synthesis markedly. Collagen synthesis was not modulated by UV-B, UV-A or cytokine treatment. These results indicate that certain cytokines may have greater effects on production of ECM proteins and MMP than absorption of UV-B and UV-A by fibroblasts grown in dermal equivalents and suggest that the former pathway may play a role in the dermal remodeling in photoaged skin.
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PMID:Effects of UVR and UVR-induced cytokines on production of extracellular matrix proteins and proteases by dermal fibroblasts cultured in collagen gels%. 1497 20


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