Abstract
The Drosophila immune system discriminates between different classes of infectious microbes and responds with pathogen-specific defense reactions via the selective activation of the Toll and the immune deficiency (Imd) signaling pathways. The Toll pathway mediates most defenses against Gram-positive bacteria and fungi, whereas the Imd pathway is required to resist Gram-negative bacterial infection. Microbial recognition is achieved through peptidoglycan recognition proteins (PGRPs); Gram-positive bacteria activate the Toll pathway through a circulating PGRP (PGRP-SA), and Gram-negative bacteria activate the Imd pathway via PGRP-LC, a putative transmembrane receptor, and PGRP-LE. Gram-negative binding proteins (GNBPs) were originally identified in Bombyx mori for their capacity to bind various microbial compounds. Three GNBPs and two related proteins are encoded in the Drosophila genome, but their function is not known. Using inducible expression of GNBP1 double-stranded RNA, we now demonstrate that GNBP1 is required for Toll activation in response to Gram-positive bacterial infection; GNBP1 double-stranded RNA expression renders flies susceptible to Gram-positive bacterial infection and reduces the induction of the antifungal peptide encoding gene Drosomycin after infection by Gram-positive bacteria but not after fungal infection. This phenotype induced by GNBP1 inactivation is identical to a loss-of-function mutation in PGRP-SA, and our genetic studies suggest that GNBP1 acts upstream of the Toll ligand Spätzle. Altogether, our results demonstrate that the detection of Gram-positive bacteria in Drosophila requires two putative pattern recognition receptors, PGRP-SA and GNBP1.
Highlights
The innate immune response is activated by receptors known as pattern recognition receptors, which recognize surface determinants, such as lipopolysaccharide (LPS),1 peptidoglycan
Using inducible expression of GNBP1 double-stranded RNA, we demonstrate that GNBP1 is required for Toll activation in response to Gram-positive bacterial infection; GNBP1 double-stranded RNA expression renders flies susceptible to Gram-positive bacterial infection and reduces the induction of the antifungal peptide encoding gene Drosomycin after infection by Gram-positive bacteria but not after fungal infection
We demonstrated that the Imd pathway is activated by the recognition of DAP-type PG found in Gram-negative and Bacillus bacterial species, whereas the Toll pathway is more responsive to the lysine-type doglycan recognition proteins; GNBP, Gram-negative binding proteins; Imd, immune deficiency; PG, peptidoglycan; TLR, Toll-like receptor; RNAi, RNA interference; RT-PCR, real-time PCR; Spz, Spatzle; IR, inverted repeat; GFP, green fluorescent protein
Summary
The innate immune response is activated by receptors known as pattern recognition receptors, which recognize surface determinants, such as lipopolysaccharide (LPS), peptidoglycan. The Toll pathway is triggered by the proteolytic cleavage of the Toll ligand, Spatzle (Spz), and regulates the rel proteins dorsal immune-related factor (DIF) and Dorsal This pathway is mainly activated by Gram-positive bacteria and fungi and controls, in large part, the expression of antimicrobial peptides active against fungi (e.g. Drosomycin) [7,8,9,10]. We demonstrated that the Imd pathway is activated by the recognition of DAP-type PG found in Gram-negative and Bacillus bacterial species, whereas the Toll pathway is more responsive to the lysine-type doglycan recognition proteins; GNBP, Gram-negative binding proteins; Imd, immune deficiency; PG, peptidoglycan; TLR, Toll-like receptor; RNAi, RNA interference; RT-PCR, real-time PCR; Spz, Spatzle; IR, inverted repeat; GFP, green fluorescent protein. The Drosophila immune system activates pathogen-specific immune response, at least in part, through the recognition of different forms of PG
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