ADAMDEC1 Is a Metzincin Metalloprotease with Dampened Proteolytic Activity

ADAMDEC1 (Decysin-1) is a putative ADAM (a disintegrin and metalloprotease)-like metalloprotease with an unknown physiological role, selectively expressed in mature dendritic cells and macrophages. When compared with other members of the ADAM family, ADAMDEC1 displays some unusual features. It lacks the auxiliary cysteine-rich, EGF, and transmembrane domains, as well as the cytoplasmic tail. The active site of ADAMDEC1 is unique by being the only mammalian ADAM protease with a non-histidine zinc ligand, having an aspartic acid residue instead. Here we demonstrate that ADAMDEC1, despite these unique features, functions as an active metalloprotease. Thus, ADAMDEC1 is secreted as a mature, glycosylated, and proteolytically active metalloprotease, capable of cleaving macromolecular substrates. In the recombinant form, three of the four potential N-linked glycosylation sites are modified by carbohydrate attachment. Substitution of basic residues at the predicted proprotein convertase cleavage site blocks proprotein processing, revealing both specific ADAMDEC1-dependent and specific ADAMDEC1-independent cleavage of the prodomain. The pro-form of ADAMDEC1 does not have proteolytic activity, demonstrating that the prodomain of ADAMDEC1, like in other members of the ADAM family, confers catalytic latency. Interestingly, the proteolytic activity of mature ADAMDEC1 can be significantly enhanced when a canonical ADAM active site with three zinc-coordinating histidine residues is introduced. Background: ADAMDEC1 is a putative ADAM-like metalloprotease with a short domain structure and a noncanonical active site. Results: Recombinant ADAMDEC1 cleaves α2-macroglobulin and casein. The activity is significantly enhanced upon reconstituting the consensus zinc-binding site. Conclusion: ADAMDEC1 is secreted as a proteolytic active, glycosylated metalloprotease. Significance: The ADAMDEC1 has adapted a reduced catalytic activity, possibly compensating the loss of auxiliary specificity determining domains.