Abstract
Snake venom metalloproteinases (SVMPs) are members of the Reprolysin family of metalloproteinases to which the ADAM (a disintegrin and metalloproteinase) proteins also belong. The disintegrin-like/cysteine-rich domains of the ADAMs have been implicated in their function. In the case of the SVMPs, we hypothesized that these domains could function to target the metalloproteinases to key extracellular matrix proteins or cell surface proteins. Initially we detected interaction of collagen XIV, a fibril-associated collagen with interrupted triple helices containing von Willebrand factor A (VWA) domains, with the PIII SVMP catrocollastatin. Next we investigated whether other VWA domain-containing matrix proteins could support the binding of PIII SVMPs. Using surface plasmon resonance, the PIII SVMP jararhagin and a recombinant cysteine-rich domain from a PIII SVMP were demonstrated to bind to collagen XIV, collagen XII, and matrilins 1, 3, and 4. Jararhagin was shown to cleave these proteins predominantly at sites localized at or near the VWA domains suggesting that it is the VWA domains to which the PIII SVMPs are binding via their cysteine-rich domain. In light of the fact that these extracellular matrix proteins function to stabilize matrix, targeting the SVMPs to these proteins followed by their specific cleavage could promote the destabilization of extracellular matrix and cell-matrix interactions and in the case of capillaries could contribute to their disruption and hemorrhage. Although there is only limited structural homology shared by the cysteine-rich domains of the PIII SVMPs and the ADAMs our results suggest an analogous function for the cysteine-rich domains in certain members of the expanded ADAM family of proteins to target them to VWA domain-containing proteins.
Highlights
One of the hallmarks of viperid envenoming is local hemorrhage caused by the snake venom metalloproteinases (SVMPs)2 [1, 2]
Recent studies from our laboratory demonstrated the ability of natural disintegrinlike/cysteine-rich domains processed from PIII SVMPs, as well as a recombinant cysteine-rich domain based on the structure from the PIII SVMP atrolysin A proteinase from Crotalus atrox venom, to support the interaction of the PIII SVMPs with von Willebrand factor [10]
Among the von Willebrand factor A (VWA)-containing proteins are the fibril-associated collagens with interrupted triple helices (FACITs) that form a subclass of collagens characterized by the presence of more than one triple helical domain separated by non-triple helical segments
Summary
Recombinant A/C (cysteine-rich domain protein from atrolysin A) was prepared as described elsewhere [10]; jararhagin, a PIII hemorrhagic SVMP from B. jararaca venom [17], was a kind gift from Dr Ana M. The cDNA encoding the matrilin 3 VWA domain was a kind gift from Dr Patric Nitsche (Lund University, Lund, Sweden) and was amplified by PCR using primers that inserted an SpeI restriction site at the 5Ј-end and a NotI site at the 3Ј-end, respectively (matn3A1m forward, 5Ј-GCCCACTAGTTTGCAAGAGCAGGCCTTTG-3Ј; and matn3A1m reverse, 5Ј-CAATGACTGCGGCCGCTTAAGCACAAAAGGTTTCCTGGAATC-3Ј). The cDNA encoding the matrilin 4 EGF domains was amplified by PCR using primers that inserted an SpeI restriction site at the 5Ј-end and a BamHI site at the 3Ј-end, respectively (matn4EGFm forward, 5Ј-GCCCACTAGTAAAGGACCTGTGTGCTGAGTTGG-3Ј; and matn4EGFm reverse, 5Ј-CAATGGATCCCCGGTCACAGCTCTTGCC ATC-3Ј) and inserted into the expression vector pCEP-Pu with a C-terminal His tag in-frame with the signal peptide of BM40 [20]. Following removal of urea by dialysis, thrombin cleavage was performed overnight at room temperature (5 mM CaCl2, 1 unit/mg thrombin, Sigma), and the cleaved His tag was removed by loading the solution again to a nickelchelating Sepharose column
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