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Kiselar, J.G. et al.

Visualizing Arp2/3 complex activation mediated by binding of ATP and WASp using structural mass spectrometry.

Actin-related protein (Arp) 2/3 complex nucleates new branches in actin filaments playing a key role in controlling eukaryotic cell motility. This process is tightly regulated by activating factors: ATP and WASp-family proteins. However, the mechanism of activation remains largely hypothetical. We used radiolytic protein footprinting with mass spectrometry in solution to probe the effects of nucleotide- and WASp- binding on Arp2/3. These results represent two significant advances in such footprinting approaches. First, Arp2/3 is the most complex macromolecular assembly yet examined; second, only a few picomoles of Arp2/3 was required for individual experiments. In terms of structural biology of Arp 2/3, we find that ATP binding induces conformational changes within Arp2/3 complex in Arp3 (localized in peptide segments 5-18, 212-225, and 318-327) and Arp2 (within peptide segment 300-316). These data are consistent with nucleotide docking within the nucleotide clefts of the actin-related proteins promoting closure of the cleft of the Arp3 subunit. However, ATP binding does not induce conformational changes in the other Arp subunits. Arp2/3 complex binds to WASp within the C subdomain at residue Met 474 and within the A subdomain to Trp 500. Our data suggest a bivalent attachment of WASp to Arp3 (within peptides 162-191 and 318-329) and Arp2 (within peptides 66-80 and 87-97). WASp-dependent protections from oxidation within peptides 54-65 and 80-91 of Arp3 and in peptides 300-316 of Arp2 suggest domain rearrangements of Arp2 and Arp3 resulting in a closed conformational state consistent with an "actin-dimer" model for the active state.[1]

References

Visualizing Arp2/3 complex activation mediated by binding of ATP and WASp using structural mass spectrometry. Kiselar, J.G., Mahaffy, R., Pollard, T.D., Almo, S.C., Chance, M.R. Proc. Natl. Acad. Sci. U.S.A. (2007) [Pubmed]

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