Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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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)
Type IV collagen was solubilized from a tumor basement membrane either by acid extraction or by limited digestion with pepsin. The two forms were similar in composition and the size of the constituent chains but differed when examined by electron microscopy and in the fragment pattern produced by bacterial
collagenase
. The acid-soluble form showed after rotary shadowing strands mainly of a length of 320 nm which terminated in a globule, or two strands connected by a similar globule. The globule was identified as a non-collagenous domain (NC1) which under dissociating conditions could be separated into two peptides showing a monomer-dimer relationship. Higher aggregates of NC1 were visualized under non-dissociating conditions. Some of the acid-extracted molecules have retained the previously 7-S collagen domain. The pepsin-solubilized form lacked domain NC1 and consisted mainly of four triple-helical strands (length 356 nm) joined together at the 7-S domain (length 30 nm). Common to both forms of type IV collagen was a small
collagenase
-resistant domain
NC2
which was composed of collagenous and non-collagenous elements and located between the 7-S domain and the major triple helix. These data indicate that the collagenous matrix of basement membranes consists of a regular network of type IV collagen molecules which is generated by two different interacting sites located at opposite ends of each molecule. The 7-S collagen domain connects four molecules while the NC1 domain connects two molecules. The maximal distance between identical cross-linking sites (7-S or NC1) was estimated to be about 800 nm comprising the length of two molecules.
...
PMID:A network model for the organization of type IV collagen molecules in basement membranes. 627 34
Human embryonic kidney cells (293-EBNA) have been transfected with the full-length human alpha1 chain of collagen V using an episomal vector. High yields (15 microgram/ml) of recombinant collagen were secreted in the culture medium. In presence of ascorbate, the alpha1(V) collagen is correctly folded into a stable triple helix as shown by electron microscopy and pepsin resistance. Circular dichroism data confirm the triple-helix conformation and indicate a melting temperature of 37.5 degrees C for the recombinant homotrimer. The major secreted form is a 250-kDa polypeptide (alpha1FL). N-terminal sequencing and
collagenase
digestion indicate that alpha1FL retains the complete N-propeptide but lacks the C-propeptide. However, alpha1FL might undergo a further N-terminal trimming into a form (alpha1TH) corresponding to the main triple-helix domain plus the major part of the
NC2
domain. This processing is different from the one of the heterotrimeric (alpha1(V))2alpha2(V) and could have some physiological relevance. Analysis of cell homogenates indicates the presence of a 280-kDa polypeptide that is disulfide-linked through its C-terminal globular domain. This C-propeptide is rapidly cleaved after secretion in the medium, giving the first evidence of a C-terminal processing of recombinant fibrillar collagens. Rotary shadowing observations not only confirm the presence of a globular domain at the N-terminal end of the molecule but reveal the presence of a kink within the triple helix in a region poor in iminoacids. This region could represent a target for proteases. Together with the thermal stability data, these results might explain the low amount of (alpha1(V))3 recovered from tissues.
...
PMID:Human recombinant alpha1(V) collagen chain. Homotrimeric assembly and subsequent processing. 937 85
Type VII collagen, the major component of anchoring fibrils, consists of a central collagenous triple-helical domain flanked by two noncollagenous domains, NC1 and
NC2
. The
NC2
domain has been implicated in catalyzing the antiparallel dimer formation of type VII procollagen. In this study, we produced the entire 161 amino acids of the
NC2
domain plus 186 amino acids of adjacent collagenous domain (
NC2
/COL) and purified large quantities of the recombinant
NC2
/COL protein. Recombinant
NC2
/COL readily formed disulfide-bonded hexamers, each representing one antiparallel dimer of collagen VII. Removal of the collagenous helical domain from
NC2
/COL by
collagenase
digestion abolished the antiparallel dimer formation. Using site-directed mutagenesis, we found that mutation of either cysteine 2802 or cysteine 2804 alone within the
NC2
domain blocked antiparallel dimer formation. In contrast, a single cysteine mutation, 2634, within the collagenous helical domain had no effect. A generated methionine to lysine substitution, M2798K, that is associated with recessive dystrophic epidermolysis bullosa, was unable to form antiparallel dimers. Furthermore, autoantibodies from epidermolysis bullosa acquisita patients also reacted with
NC2
/COL. We conclude that
NC2
and its adjacent collagenous segment mediate antiparallel dimer formation of collagen VII. Epidermolysis bullosa acquisita autoantibodies bound to this domain may destabilize anchoring fibrils by interfering with antiparallel dimer assembly leading to epidermal-dermal disadherence.
...
PMID:The carboxyl terminus of type VII collagen mediates antiparallel dimer formation and constitutes a new antigenic epitope for epidermolysis Bullosa acquisita autoantibodies. 1127 8
Most patients with epidermolysis bullosa acquisita develop an autoimmune response to the non-collagenous (NC) 1 domain of type VII collagen. We report a 4-year-old girl of white European descent presenting with widespread blistering disease involving the face, hands, genital area and oral mucosa. Histopathology revealed subepidermal blisters, and linear deposits of IgG and C3 were seen along the dermal-epidermal junction on direct immunofluorescence (IF) microscopy of a perilesional skin biopsy. On indirect IF microscopy, circulating autoantibodies exclusively stained the dermal side of 1 mol L-1 NaCl-split skin. The patient's IgG autoantibodies labelled a 290-kDa protein on Western blotting of dermal extracts, and reacted with the NC1,
NC2
and triple helical domains of type VII collagen on immunoblotting of recombinant and cell-derived fragments obtained by pepsin and
collagenase
digestion of the full-length protein. Oral methylprednisolone and dapsone led to clearance of lesions, which healed with mild scarring and milia formation. Treatment was discontinued after 1 year and the patient has now been in remission for more than 3 years.
...
PMID:Childhood epidermolysis bullosa acquisita: a novel variant with reactivity to all three structural domains of type VII collagen. 1220 8
