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Complement C5-deficient (C5(-/-)) macrophages derived from B.10 congenic mice were found to be defective in killing intracellular Mycobacterium tuberculosis (MTB). They were bacteriostatic after activation with IFN-gamma alone but bactericidal in the combined presence of IFN-gamma and C5-derived C5a anaphylatoxin that was deficient among these macrophages. Reduced killing correlated with a decreased production of reactive oxygen species (ROS) in the C5(-/-) macrophages measured using fluorescent probes. Furthermore, a lack of colocalization of p47(phox) protein of the NADPH oxidase (phox) complex with GFP-expressing MTB (gfpMTB) indicated a defective assembly of the phox complex on phagosomes. Reconstitution with C5a, a known ROS activator, enhanced the assembly of phox complex on the phagosomes as well as the production of ROS that inhibited the growth of MTB. Protein kinase C (PKC) isoforms are involved in the phosphorylation and translocation of p47(phox) onto bacterial phagosomes. Western blot analysis demonstrated a defective phosphorylation of PKC (alpha, beta, delta) and PKC-zeta in the cytosol of C5(-/-) macrophages compared with C5 intact (C5(+/+)) macrophages. Furthermore, in situ fluorescent labeling of phagosomes indicated that PKC-beta and PKC-zeta were the isoforms that are not phosphorylated in C5(-/-) macrophages. Because Fc receptor-mediated phox assembly was normal in both C5(-/-) and C5(+/+) macrophages, the defect in phox assembly around MTB phagosomes was specific to C5 deficiency. Reduced bactericidal function of C5(-/-) macrophages thus appears to be due to a defective assembly and production of ROS that prevents effective killing of intracellular MTB.

the journal of immunology/the journal of immunology

The Reduced Bactericidal Function of Complement C5-Deficient Murine Macrophages Is Associated with Defects in the Synthesis and Delivery of Reactive Oxygen Radicals to Mycobacterial Phagosomes