Journal
JOURNAL OF LEUKOCYTE BIOLOGY
Volume 85, Issue 4, Pages 595-605Publisher
WILEY
DOI: 10.1189/jlb.1008631
Keywords
innate immunity; dendritic cells; E. coli; trafficking
Categories
Funding
- Centers of Biomedical Research Excellence [P20RR016437]
- National Institutes of Health (NIH) [R01 AI067405, T32 AI07363]
- Dartmouth Clinical and Translational Science Award
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Class-A scavenger receptors (SR-A) and TLR mediate early immune responses against pathogenic bacteria. SR-A and TLR molecules are expressed on phagocytes and interact with common ligands from Gram-negative and Gram-positive bacteria; however, the contribution of TLR activity to SR-A-mediated phagocytosis has not been assessed directly. Herein, we provide genetic and functional evidence that ligand-and TLR-specific stimuli synergize with SR-A to mediate bacterial phagocytosis. Although complete loss of SR-A (SR-A(-/-)) is known to impair bacterial clearance, here we identify the first deficiency attributable to SR-A heterozygosity: SR-A(+/-)TLR4(+/-) cells and mice are impaired significantly in the clearance of Gram-negative Escherichia coli. This phenotype is specific to the TLR signaling event, as SR-A(+/-)TLR4(+/-) cells are not deficient for the clearance of Gram-positive Staphylococcus aureus bacteria, which contain cell-surface TLR2 ligands but lack TLR4 ligands. We demonstrate that this is a global, phagocytic mechanism, regulated independently by multiple TLRs, as analogous to the SR-A(+/-)TLR4(+/-) deficit, SR-A(+/-)TLR2(+/-) cells are impaired for S. aureus uptake. In support of this, we show that SR-A(+/-)MyD88(+/-) cells recapitulate the phagocytosis defect observed in SR-A(+/-)TLR4(+/-) cells. These data identify for the first time that TLR-driven innate immune responses, via a MyD88 signaling mechanism, regulate SR-A-dependent phagocytosis of bacteria. These findings provide novel insights into how innate immune cells control SR-A-mediated trafficking and are the first demonstration that subtle changes in the expression of SR-A and TLRs can substantially affect host bacterial clearance. J. Leukoc. Biol. 85: 595-605; 2009.
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