Structure of protease-cleaved Escherichia coli α-2-macroglobulin reveals a putative mechanism of conformational activation for protease entrapment

Fyfe, C. D. and Grinter, R. and Josts, I. and Mosbahi, K. and Roszak, A. W. and Cogdell, R. J. and Wall, D. M. and Burchmore, R. J. and Byron, O. and Walker, D. (2015) Structure of protease-cleaved Escherichia coli α-2-macroglobulin reveals a putative mechanism of conformational activation for protease entrapment. Structure, 71. pp. 1478-1486. ISSN 0969-2126 (https://doi.org/10.1107/S1399004715008548)

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Abstract

Bacterial [alpha]-2-macroglobulins have been suggested to function in defence as broad-spectrum inhibitors of host proteases that breach the outer membrane. Here, the X-ray structure of protease-cleaved Escherichia coli [alpha]-2-macroglobulin is described, which reveals a putative mechanism of activation and conformational change essential for protease inhibition. In this competitive mechanism, protease cleavage of the bait-region domain results in the untethering of an intrinsically disordered region of this domain which disrupts native interdomain interactions that maintain E. coli [alpha]-2-macroglobulin in the inactivated form. The resulting global conformational change results in entrapment of the protease and activation of the thioester bond that covalently links to the attacking protease. Owing to the similarity in structure and domain architecture of Escherichia coli [alpha]-2-macroglobulin and human [alpha]-2-macro­globulin, this protease-activation mechanism is likely to operate across the diverse members of this group.

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