Francisella tularensis Live Vaccine Strain Induces Macrophage Alternative Activation as a Survival Mechanism

Abstract

Francisella tularensis (Ft), the causative agent of tularemia, elicits a potent inflammatory response early in infection, yet persists within host macrophages and can be lethal if left unchecked. We report in this study that Ft live vaccine strain (LVS) infection of murine macrophages induced TLR2-dependent expression of alternative activation markers that followed the appearance of classically activated markers. Intraperitoneal infection with Ft LVS also resulted in induction of alternatively activated macrophages (AA-Mφ). Induction of AA-Mφ by treatment of cells with rIL-4 or by infection with Ft LVS promoted replication of intracellular Ftn, in contrast to classically activated (IFN-γ plus LPS) macrophages that promoted intracellular killing of Ft LVS. Ft LVS failed to induce alternative activation in IL-4Rα−/− or STAT6−/− macrophages and prolonged the classical inflammatory response in these cells, resulting in intracellular killing of Ft. Treatment of macrophages with anti-IL-4 and anti-IL-13 Ab blunted Ft-induced AA-Mφ differentiation and resulted in increased expression of IL-12 p70 and decreased bacterial replication. In vivo, Ft-infected IL-4Rα−/− mice exhibited increased survival compared with wild-type mice. Thus, redirection of macrophage differentiation by Ft LVS from a classical to an alternative activation state enables the organism to survive at the expense of the host.