Crystal structure of viral serpin crmA provides insights into its mechanism of cysteine proteinase inhibition

MILJAN SIMONOVIC; PETER G.W. GETTINS; KARL VOLZ

doi:10.1110/ps.9.8.1423

Abstract

CrmA is an unusual viral serpin that inhibits both cysteine and serine proteinases involved in the regulation of host inflammatory and apoptosis processes. It differs from other members of the serpin superfamily by having a reactive center loop that is one residue shorter, and by its apparent inability to form SDS-stable covalent complexes with cysteine proteinases. To obtain insight into the inhibitory mechanism of crmA, we determined the crystal structure of reactive center loop-cleaved crmA to 2.9 Å resolution. The structure, which is the first of a viral serpin, suggests that crmA can inhibit cysteine proteinases by a mechanism analogous to that used by other serpins against serine proteinases. However, one striking difference from other serpins, which may be significant for in vivo function, is an additional highly charged antiparallel strand for β sheet A, whose sequence and length are unique to crmA.

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Crystal structure of viral serpin crmA provides insights into its mechanism of cysteine proteinase inhibition

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Crystal structure of viral serpin crmA provides insights into its mechanism of cysteine proteinase inhibition

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