Parasitology & Microbiology

Biography

Biography: Ulisses Gazos Lopes

Abstract

PKR (dsRNA activated kinase) activation, a key regulator of the antiviral pathway, occurs in L. amazonensis infection, leading to the expression of IL-10 and IFN1beta and favoring the parasite intracellular growth. Importantly, the immune staining of human cutaneous leishmaniasis lesions revealed impressive high levels of IFN1beta/PKR positive cells from patients with untreatable diffuse cutaneous leishmaniasis. We have investigated whether the endosome dsRNA receptor, TLR3, shared a similar role in L. amazonensis infection. The intracellular growth of the parasites was reduced in TLR3-/- macrophages and this phenomenon was accompanied by significantly reduced levels of IFN1beta and IL-10 and increased levels of IL-12. These data prompted us to test the hypothesis that arboviruses, RNA arthropods transmitted viruses, would interfere with the Leishmania infection. To tackle this hypothesis, we worked with Phlebovirus, a sub group of the Bunyaviridae, which is transmitted by sandflies. We tested a viral isolate of the rodent Nectomys sp., a natural sylvatic reservoir of L. amazonensis from the Amazon region. Leishmania and Phlebovirus coinfection led to high intracellular parasite growth. Importantly, this effect required PKR, TLR3 and IFN1 signaling. L. amazonensis and Phlebovirus synergize the expression of IFN1beta and IL-10. However, the coinfection of L. amazonensis with the ssRNA arbovirus (DENVII) did not induce these effects. Altogether, our data revealed that the classical antiviral cellular responses mediated by PKR and TLR3 are subverted by L. amazonensis. We predict that specific RNA viral coinfections may enhance and sustain the activation of cellular RNA sensors, resulting in the aggravation of the parasite infection.