LAUSR

Vibrio mimicus collagenase (VMC), a Class II Vibrio metalloprotease, contains an HEXXH motif in a zinc-binding catalytic domain, and two FAXWXXT motifs in its C-terminal domain, which is its collagen binding domain (CBD). To understand the functional role of the individual CBD motifs in the activity of VMC, if any, we created and characterized a series of VMC variants: i) VMA, with 51 amino acids deleted from the C-terminal end of full-length VMC; ii) VMT1, a form of VMA mutated in the first CBD motif; iii) VMT2, a form of VMA mutated in the second CBD motif; iv) DM, a form of VMA with both CBD motifs mutated; v) CT, a truncated form of VMA, lacking the entire CBD region; and vi) CBD, a construct containing the collagen binding domain alone. The activity of each variant was assessed by multiple means, in relation to VMA. We report that VMT1 and VMT2 show 1.6-fold and 10-fold reduced activity, respectively. The reduced activity of VMT2 correlates with reduced binding to insoluble collagen as well as an inability to cause structural perturbation of collagen. VMC appears to cause unwinding and structural alteration of the collagen triple helix prior to hydrolysis of the substrate (using both motifs for collagen binding), like Clostridium collagenases. In the absence of a known structure for VMC, our findings suggest that Vibrio collagenase, functions like Clostridium collagenases, although the two show very little sequence similarity. Also, VMC shows reduced activity with respect to Clostridium collagenases, making it an ideal enzyme for therapeutic applications.