Antifungal activity of macrophages engineered to produce IFNγ:: inducibility by picolinic acid

Macrophages are important antimicrobial effectors, whose efficacy is greatly enhanced by interferon-gamma (IFNgamma). We recently engineered a mouse macrophage cell line to express the IFNgamma gene in a inducible manner. Such macrophages, Mphi10, include a construct containing the IFNgamma gene under the control of the synthetic promoter HRE3x-Tk. Picolinic acid (PA) is a catabolite of tryptophan, known to exert costimulatory activities on macrophages and expected to act on transcriptional elements within HRE3x-Tk promoter. Since evidence exists on the efficacy of engineered macrophages as carriers of therapeutic genes against tumors, we tested Mphi10. under basal conditions and following exposure to PA, as IFNgamma-producing cells in in vitro models of fungal infection. We found that Mphi10 constitutively exhibited anticryptococcal and anticandidal activity, low but detectable levels of IFNgamma mRNA and undetectable levels of nitric oxide synthase (iNOS) transcripts. Treatment with PA caused time-dependent enhancement of antifungal activity. The phenomenon was associated with the induction of both IFNgamma and iNOS gene expression and was followed by IFNy and NO production. The effect of the Mphi10-produced IFNy on other cells was also investigated by a transwell co-culture system. A major enhancement of phagocytosis and antiftingal activity was observed in BV2 microglial cells that had been co-cultured with Mphi10. Such an increase was only evident when Mphi10 had been pretreated with PA and was abrogated by concomitant addition of anti-IFNgamma antibodies. In conclusion, we show that Mphi10 respond to PA with the production of IFNgamma, which retains the ability to induce antifungal activity in the producing macrophages as well as in other macrophage populations. The potential use of Mphi10 as vectors for therapeutic genes in infectious diseases is discussed.