Identification of IspC, an 86-kilodalton Protein Target of Humoral Immune Response to Infection with Listeria Monocytogenes Serotype 4b, As a Novel Surface Autolysin

Overview

Journal J Bacteriol

Publisher American Society for Microbiology

Specialty Microbiology

Date 2006 Dec 19

PMID 17172332

Citations 10

Authors

Linru Wang

Min Lin

Affiliations

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Abstract

We identified and biochemically characterized a novel surface-localized autolysin from Listeria monocytogenes serotype 4b, an 86-kDa protein consisting of 774 amino acids and known from our previous studies as the target (designated IspC) of the humoral immune response to listerial infection. Recombinant IspC, expressed in Escherichia coli, was purified and used to raise specific rabbit polyclonal antibodies for protein characterization. The native IspC was detected in all growth phases at a relatively stable low level during a 22-h in vitro culture, although its gene was transiently transcribed only in the early exponential growth phase. This and our previous findings suggest that IspC is upregulated in vivo during infection. The protein was unevenly distributed in clusters on the cell surface, as shown by immunofluorescence and immunogold electron microscopy. The recombinant IspC was capable of hydrolyzing not only the cell walls of the gram-positive bacterium Micrococcus lysodeikticus and the gram-negative bacterium E. coli but also that of the IspC-producing strain of L. monocytogenes serotype 4b, indicating that it was an autolysin. The IspC autolysin exhibited peptidoglycan hydrolase activity over a broad pH range of between 3 and 9, with a pH optimum of 7.5 to 9. Analysis of various truncated forms of IspC for cell wall-hydrolyzing or -binding activity has defined two separate functional domains: the N-terminal catalytic domain (amino acids [aa] 1 to 197) responsible for the hydrolytic activity and the C-terminal domain (aa 198 to 774) made up of seven GW modules responsible for anchoring the protein to the cell wall. In contrast to the full-length IspC, the N-terminal catalytic domain showed hydrolytic activity at acidic pHs, with a pH optimum of between 4 and 6 and negligible activity at alkaline pHs. This suggests that the cell wall binding domain may be of importance in modulating the activity of the N-terminal hydrolase domain. Elucidation of the biochemical properties of IspC may have provided new insights into its biological function(s) and its role in pathogenesis.

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