Neutrophil collagenase MMP-81 is a Zn 2ϩ metallo-endopeptidase, which is able to cleave native triple-helical collagen I (1-3) at a specific peptide bond between Gly 775 and the residue at position 776 (which can be either Leu or Ile), leading to the formation of one-quarter and three-quarter fragments (4). MMP-8 is predominantly expressed by neutrophil precursors (5, 6), but very recently it has been demonstrated that it is also expressed in human articular chondrocytes (7) and that it might also be responsible for aggrecanase activity (8, 9). MMP-8 is expressed initially as a proenzyme and stored in the specific granules of neutrophils (10). The activation of MMP-8 can be accomplished either by mercurials, oxidative processes, and proteinases (11-14) thus removing a cysteinyl residue, which coordinates the Zn 2ϩ atom, rendering the enzyme inactive. In particular, it was observed that cathepsin G, a neutrophil serine proteinase, and stromelysin MMP-3 activate proMMP-8 through two different processes, the first one cleaving the Phe 79 -Met 80 peptide bond (11), whereas MMP-3 activates through the cleavage of the Gly 78 -Phe 79 peptide bond (15). Therefore, the resulting active MMP-8 displays two different N termini (i.e. Met 80 if activated by cathepsin G and Phe 79 if activated by MMP-3), and it has been shown that these two forms display meaningful differences in the catalytic activity toward synthetic substrates or inhibitors (16,17). The final active enzyme is made of a catalytic domain, where the Zn 2ϩ atom coordinated to 3 histidyl residues is located, and a hemopexin-like domain, which is connected to the catalytic domain through a linker region (18,19).Collagen I is one of the major components of the extracellular matrix for most tissues, such as skin, tendon, blood vessels, cartilage, bones, and basal laminae (20). It displays a triplehelical structural arrangement (21), which is kept by most of the molecule during the first cleavage event by MMP-8 (22), even though three-dimensional structures of collagenases indicate that the substrate binding cleft appears too narrow to accommodate a triple-helical collagen molecule. The two sets of data are not necessarily in contradiction, because a partial unwinding of collagen may be envisaged during the enzymatic action (23-25) while keeping the overall three-dimensional structure of the whole collagen molecule.Several studies have shown that, although the actual enzymatic action of collagenases occurs in the catalytic domain, the hemopexin-like domain plays an important role, because its * This work was supported in part by funds from the Italian Ministero dell'Università e della Ricerca Scientifica e Tecnologica (MURST COFIN MM03185591 to M. C.) and the Deutsche Forschungsgemeinschaft, Bonn, Grants SFB 549 and SFB A5 (to H.T.) and Project Ts 8/35 (to H. T.). The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. Section 1734 solely ...
