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)

We have investigated the production of collagenous proteins by primary cultures of rat lung epithelial cells (type II pneumocytes). Three major bacterial collagenase-sensitive chains were synthesized and secreted into the medium between 12 and 36 h of culture. Two of the chains comigrated on sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis (SDS-PAGE) with radiolabeled type IV procollagen (PC) chains isolated from adult rat lung (Mr = 185,000 and 170,000 after reduction) and were coprecipitated with monospecific antibodies to type IV collagen. Cyanogen bromide (CNBr) peptide maps of the chromatographically purified chains were identical to maps of rat lung type IV PC, and confirmed the identity of these chains as pro alpha 1(IV) and pro alpha 2(IV). Type IV PC was the major high molecular weight collagen in the cell layer, and a fraction of the newly synthesized type IV PC was selectively deposited on the substratum together with newly synthesized fibronectin. Type II cells also secreted a low molecular weight, non-disulfide-bonded, collagenase-sensitive protein (Mr = 19,000, collagen standards; Mr = 26,000, globular standards). The protein coeluted with type IV PC from DEAE-cellulose but was resolved from native type IV on CM-cellulose. The protein was not precipitated with polyclonal antibodies to type IV collagen or rat surfactant apoprotein. These studies further demonstrate the heterogeneity of collagenous macro-molecules synthesized by lung epithelial cells in vitro. We suggest that interactions between pneumocyte-derived fibronectin and type IV procollagen contribute to the formation of the epithelial basement membrane and to the attachment of these cells in normal or injured lung.
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PMID:Synthesis of collagenous proteins by pulmonary type II epithelial cells. 357 11

Nineteen types, the product of 33 genes, comprise the collagen family of proteins. Types I, II, III, V, and XI constitute the fibrillar collagens, whereas types IV, VI to X, and XII to XIX represent the structurally diverse, nonfibrillar members. Type XIX collagen was discovered from the sequence of rhabdomyosarcoma cDNA clones. The type XIX chain consists of 1142 amino acids that contribute primarily to a unique five subdomain triple-helical region. To characterize the protein, to determine the tissue distribution, and to provide some insight into its function, we generated two type XIX-specific polyclonal antibodies. One was directed against a recombinant molecule containing amino-terminal sequences, and the second was derived from a synthetic peptide corresponding to most of the short carboxy terminus. These antibodies were used in immunoblot assays of rhabdomyosarcoma cell/matrix homogenates to identify a 165-kd disulfide-bonded and bacterial collagenase-sensitive protein. Immunohistochemical analysis of type XIX collagen was performed for human skeletal muscle, spleen, prostate, kidney, liver, placenta, colon, and skin. In contrast to Northern blot hybridizations, which showed very low levels of the 12-kb transcript in few tissues, the protein was found in all tissues examined. The type XIX collagen distribution was restricted to vascular, neuronal, mesenchymal, and some epithelial basement membrane zones, which is similar to the profile recently established (Ref. 8) and further extended here for type XV collagen. Nevertheless, localization of type XIX exhibited significant differences from type XV collagen that were particularly evident in the kidney, liver, and spleen. This report, in conjunction with the type XV results and other studies of type XVIII collagen, indicates the existence of a new collagen subgroup founded on their widespread presence in basement membrane zones regardless of chain homology. In addition to their role in basement membrane-stromal interactions, the pronounced vascular association suggests involvement of these related collagen types with angiogenic and pathological processes.
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PMID:Biochemical and immunohistochemical characterization of human type XIX defines a novel class of basement membrane zone collagens. 940 23

Collagen-derived small peptides, such as Gly-Pro-Hyp (GPH) and Pro-Hyp (PH), play a role in various physiological functions. Although collagen degrades in the gastrointestinal tract randomly and easily, it is not readily cleaved into bioactive peptides. To increase the bioavailability of bioactive peptides, a collagen tripeptide (CTP) was prepared from fish scales by the digestion method using collagenase from nonpathogenic Bacillus bacteria. It was demonstrated that Hyp-containing peptides-GPH and PH-were better absorbed and reached higher plasma levels after the oral administration of CTPs in rats compared to high molecular weight collagen peptide (H-CP). GPH and PH were stable in gastrointestinal fluid and rat plasma for 2 h, and GPH was able to be transported across the intestinal cell monolayer. These results suggest that the ingestion of CTP is an efficient method for taking bioactive peptides orally due to the enzymatic stability and intestinal permeability of GPH and PH.
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PMID:Orally Available Collagen Tripeptide: Enzymatic Stability, Intestinal Permeability, and Absorption of Gly-Pro-Hyp and Pro-Hyp. 2757 16