J. David Buttle scite author profile

The ability of purified human neutrophil elastase (EC 3.4.21.37) to cleave native type I collagen has been investigated. Soluble human, bovine or rat type I collagen was incubated with neutrophil elastase for 16 h at 25 degrees C before catalysis was stopped with 3, 4-dichloroisocoumarin. Analysis by SDS/PAGE of the collagen digests revealed 3/4-length fragments similar in size to those produced by interstitial collagenase. The collagenolytic activity was dose dependent and was not due to a contaminating metalloproteinase or cysteine proteinase, as it was not inhibited by 1,10-phenanthroline, EDTA or L-trans-epoxysuccinyl-leucylamido-(4-guanidino)butane. The identity of the cleavage products was confirmed using a new antibody that recognizes the unwound alpha2(I)-chain. This detected the 3/4-length fragment of type I collagen following neutrophil elastase cleavage. In addition to cleaving soluble collagen, neutrophil elastase also cleaved reconstituted, radiolabelled type I collagen fibrils, at a rate of 16 microg/min per nmol. These results indicate that neutrophil elastase can cleave native type I collagen in the helix, an activity that might contribute to its roles in connective-tissue pathology.

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Characterization of helical cleavages in type II collagen generated by matrixins

Vankemmelbeke

Dekeyser

Hollander

et al. 1998

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Several vertebrate collagenases have been reported to cleave type II collagen, leading to irreversible tissue destruction in osteoarthritis. We have investigated the action of MMP-1 and MMP-13 on type II collagen by use of neoepitope antibodies and N-terminal sequencing. Previous studies have suggested that the initial cleavage of type II collagen by MMP-13 is followed by a second cleavage, three amino acids carboxy-terminal to the primary cleavage site. We show here that this cleavage is also produced by APMA-activated MMP-1 in combination with MMP-3 (i.e. fully activated MMP-1). The use of a selective inhibitor of MMP-3 has shown that it is this enzyme, rather than interstitial collagenase which had been exposed to MMP-3, which makes the second cleavage. In addition we have identified, through N-terminal sequencing, a third cleavage site, three residues carboxy-terminal to the secondary site. Since MMP-2 is thought to be responsible for gelatinolytic action on type II collagen we have investigated the effect of MMP-2 after the initial helical cleavage made by either MMP-1 or MMP-13. A combination of MMPs-1, -2 and -3 results in both the second and third cleavage sites; adding MMP-2 to MMP-13 did not alter the cleavage pattern produced by MMP-13 on its own. We conclude that none of the three cleavage sites will provide information about the specific identity of the collagenolytic enzymes involved in collagen cleavage in situ. Staining of cartilage sections of osteoarthritis patients with the neoepitope antibodies revealed type II collagen degradation starting at or near the articular surface and extending into the mid and deep zones with increasing degeneration of the cartilage.

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J. David Buttle

Cleavage of native type I collagen by human neutrophil elastase

Characterization of helical cleavages in type II collagen generated by matrixins

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