Cleavage of PGRP-LC receptor in the Drosophila IMD pathway in response to live bacterial infection in S2 cells

Drosophila responds to Gram-negative bacterial infection by activating the immune deficiency (IMD) pathway, leading to production of antimicrobial peptides (AMPs). As a receptor for the IMD pathway, peptidoglycan-recognition protein (PGRP), PGRP-LC is known to recognize and bind monomeric peptidogly...

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Bibliographic Details
Published in:Self/nonself 2011-06, Vol.2 (3), p.125-141
Main Authors: Schmidt, Rebecca L., Rinaldo, Francesca M., Hesse, Shayla E., Hamada, Masakazu, Ortiz, Zachary, Beleford, Daniah T., Page-McCaw, Andrea, Platt, Jeffrey L., Tang, Amy H.
Format: Article
Language:English
Subjects:
Binding
Biology
Bioscience
Calcium
Cancer
Cell
Cycle
Landes
Organogenesis
Proteins
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Summary:Drosophila responds to Gram-negative bacterial infection by activating the immune deficiency (IMD) pathway, leading to production of antimicrobial peptides (AMPs). As a receptor for the IMD pathway, peptidoglycan-recognition protein (PGRP), PGRP-LC is known to recognize and bind monomeric peptidoglycan (DAP-type PGN) through its PGRP ectodomain and in turn activate the IMD pathway. The questions remain how PGRP-LC is activated in response to pathogen infection to initiate the IMD signal transduction in Drosophila. Here we present evidence to show that proteases such as elastase and Mmp2 can also activate the IMD pathway but not the TOLL pathway. The elastase-dependent IMD activation requires the receptor PGRP-LC. Importantly, we find that live Salmonella/E.coli infection modulates PGRP-LC expression/receptor integrity and activates the IMD pathway while dead Salmonella/E.coli or protease-deficient E. coli do neither. Our results suggest an interesting possibility that Gram-negative pathogen infection may be partially monitored through the structural integrity of the receptor PGRP-LC via an infection-induced enzyme-based cleavage-mediated activation mechanism.
ISSN:1938-2030
1938-2049
DOI:10.4161/self.17882