Subversion of complement activation at the bacterial surface promotes serum resistance and opsonophagocytosis of Francisella tularensis

Abdelhakim Ben Nasr¹ and Gary R. Klimpel

Department of Microbiology and Immunology, University of Texas Medical Branch, Galveston, Texas, USA

¹Correspondence: Department of Microbiology and Immunology, Medical Research Building, University of Texas Medical Branch, Galveston, TX, USA. E-mail: abbennas{at}utmb.edu

ABSTRACT

Francisella tularensis (Ft) is resistant to serum but requirescomplement factor C3-derived opsonins for uptake by phagocyticcells and subsequent intracellular growth. In this study, weshow that C3 fragments, deposited on Ft, are detected by anti-C3dand -iC3b mAb and that the classical and the alternative pathwaysare involved in this event. This was demonstrated using C2-depletedsera and specific inhibitors of the classical-versus-alternativepathways of complement activation. Further, we demonstrate thatfactor C4b, which is crucial for the classical pathway, is depositedon the surface of Ft. In contrast, the C5b-C9 membrane attackcomplex (MAC) is not assembled on the surface of Ft, which mayexplain its resistance to complement killing. Deposition ofC3 opsonins leads to enhanced phagocytosis by human immaturedendritic cells (DC), which leads to intracellular survival,growth, and DC death. Finally, we show that factor H (fH) canbind to the surface of Ft. We believe our data suggest thatimportant virulence factors for Ft are its ability to bind fHand inactivate C3b to iC3b, which culminates in opsonin-induceduptake for subsequent intracellular growth. C3b inactivationalso leads to inefficient MAC assembly, which contributes tothe ability of this bacterium to resist complement lysis.

Key Words: complement system • opsonins • bacterial infection