Leishmaniasis is a neglected tropical disease affecting millions of individuals worldwide. P2X7 receptor has been linked to the elimination of Leishmania amazonensis . Biological responses evoked by P2X7 receptor activation have been well-documented, including apoptosis, phagocytosis, cytokine release, such as IL-1β. It was demonstrated that NLRP3 inflammasome activation and IL-1β signaling participated in resistance against L . amazonensis . Furthermore, our group has shown that L . amazonensis elimination through P2X7 receptor activation depended on leukotriene B 4 (LTB 4 ) production and release. Therefore, we investigated whether L . amazonensis elimination by P2X7 receptor and LTB 4 involved NLRP3 inflammasome activation and IL-1β signaling. We showed that macrophages from NLRP3 -/- , ASC -/- , Casp-1/11 -/- , gp91 phox-/- , and IL-1R -/- mice treated with ATP or LTB 4 did not decrease parasitic load as was observed in WT mice. When ASC -/- macrophages were treated with exogenous IL-1β, parasite killing was noted, however, we did not see parasitic load reduction in IL-1R -/- macrophages. Similarly, macrophages from P2X7 receptor-deficient mice treated with IL-1β also showed decreased parasitic load. In addition, when we infected Casp-11 -/- macrophages, neither ATP nor LTB 4 were able to reduce parasitic load, and Casp-11 -/- mice were more susceptible to L . amazonensis infection than were WT mice. Furthermore, P2X7 -/- L . amazonensis- infected mice locally treated with exogenous LTB 4 showed resistance to infection, characterized by lower parasite load and smaller lesions compared to untreated P2X7 -/- mice. A similar observation was noted when infected P2X7 -/- mice were treated with IL-1β, i.e., lower parasite load and smaller lesions compared to P2X7 -/- mice. These data suggested that L . amazonensis elimination mediated by P2X7 receptor and LTB 4 was dependent on non-canonical NLRP3 inflammasome activation, ROS production, and IL-1β signaling.
Leishmaniasis is a neglected tropical disease caused by an intracellular parasite of the genus Leishmania. Damage-associated molecular patterns (DAMPs) such as UTP and ATP are released from infected cells and, once in the extracellular medium, activate P2 purinergic receptors. P2Y2 and P2X7 receptors cooperate to control Leishmania amazonensis infection. NLRP3 inflammasome activation and IL-1β release resulting from P2X7 activation are important for outcomes of L. amazonensis infection. The cytokine IL-1β is required for the control of intracellular parasites. In the present study, we investigated the involvement of the P2Y2 receptor in the activation of NLRP3 inflammasome elements (caspase-1 and 11) and IL-1β secretion during L. amazonensis infection in peritoneal macrophages as well as in a murine model of cutaneous leishmaniasis. We found that 2-thio-UTP (a selective P2Y2 agonist) reduced parasite load in L. amazonensis-infected murine macrophages and in the footpads and lymph nodes of infected mice. The antiparasitic effects triggered by P2Y2 activation were not observed when cells were pretreated with a caspase-1 inhibitor (Z-YVAD-FMK) or in macrophages from caspase-1/11 knockout mice (CASP-1,11−/−). We also found that UTP treatment induced IL-1β secretion in wild-type (WT) infected macrophages but not in cells from CASP-1,11−/− mice, suggesting that caspase-1 activation by UTP triggers IL-1β secretion in L. amazonensis-infected macrophages. Infected cells pretreated with IL-1R antagonist did not show reduced parasitic load after UTP and ATP treatment. Our in vivo experiments also showed that intralesional UTP treatment reduced both parasite load (in the footpads and popliteal lymph nodes) and lesion size in wild-type (WT) and CASP-11−/− but not in CASP-1,11−/− mice. Taken together, our findings suggest that P2Y2R activation induces CASP-1 activation and IL-1β secretion during L. amazonensis infection. IL-1β/IL-1R signaling is crucial for P2Y2R-mediated protective immune response in an experimental model of cutaneous leishmaniasis.
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