A type 1 cytokine-dependent proinflammatory response inducing classically activated macrophages (CaMϕs) is crucial for parasite control during protozoan infections but can also contribute to the development of immunopathological disease symptoms. Type 2 cytokines such as IL-4 and IL-13 antagonize CaMϕs inducing alternatively activated macrophages (AaMϕs) that upregulate arginase-1 expression. During several infections, induction of arginase-1-macrophages was showed to have a detrimental role by limiting CaMϕ-dependent parasite clearance and promoting parasite proliferation. Additionally, the role of arginase-1 in T cell suppression has been explored recently. Arginase-1 can also be induced by IL-10 and transforming growth factor-β (TGF-β) or even directly by parasites or parasite components. Therefore, generation of alternative activation states of macrophages could limit collateral tissue damage because of excessive type 1 inflammation. However, they affect disease outcome by promoting parasite survival and proliferation. Thus, modulation of macrophage activation may be instrumental in allowing parasite persistence and long-term host survival.
During the acute phase of Trypanosoma cruzi infection, macrophages can act as host cells for the parasites as well as effector cells in the early anti-parasitic immune response. Thus, the targeting of specific signaling pathways could modulate macrophages response to restrict parasite replication and instruct an appropriate adaptive response. Recently, it has become evident that Wnt signaling has immunomodulatory functions during inflammation and infection. Here, we tested the hypothesis that during T. cruzi infection, the activation of Wnt signaling pathway in macrophages plays a role in modulating the inflammatory/tolerogenic response and therefore regulating the control of parasite replication. In this report, we show that early after T. cruzi infection of bone marrow-derived macrophages (BMM), β-catenin was activated and Wnt3a, Wnt5a, and some Frizzled receptors as well as Wnt/β-catenin pathway’s target genes were upregulated, with Wnt proteins signaling sustaining the activation of Wnt/β-catenin pathway and then activating the Wnt/Ca+2 pathway. Wnt signaling pathway activation was critical to sustain the parasite’s replication in BMM; since the treatments with specific inhibitors of β-catenin transcriptional activation or Wnt proteins secretion limited the parasite replication. Mechanistically, inhibition of Wnt signaling pathway armed BMM to fight against T. cruzi by inducing the production of pro-inflammatory cytokines and indoleamine 2,3-dioxygenase activity and by downregulating arginase activity. Likewise, in vivo pharmacological inhibition of the Wnts’ interaction with its receptors controlled the parasite replication and improved the survival of lethally infected mice. It is well established that T. cruzi infection activates a plethora of signaling pathways that ultimately regulate immune mediators to determine the modulation of a defined set of effector functions in macrophages. In this study, we have revealed a new signaling pathway that is activated by the interaction between protozoan parasites and host innate immunity, establishing a new conceptual framework for the development of new therapies.
Given that arginase activation may effectively influence nitric oxide (NO) production in macrophages, we have investigated the intracellular signals that regulate L-arginine metabolism and its influence on Trypanosoma cruzi growth. We demonstrate that cruzipain (Cz), a parasite antigen, induces arginase I expression in J774 cells, and the pretreatment of Cz-treated cells with N-omega-hydroxy-L-arginine (arginase inhibitor) leads to a dramatic decrease in amastigote growth. The study of intracellular signals shows that genistein [tyrosine kinase (TK) inhibitor], KT5720 [protein kinase (PK) A inhibitor] and SB203580 [p38 mitogenactivated protein kinase (MAPK) inhibitor] significantly decrease Cz-induced arginase activation. However, calphostin C (PKC inhibitor) and PD98059 [p44/p42 MAPK kinase (MEK) inhibitor] did not cause a significant change. To determine if signaling pathways triggered by Cz were involved in the T. cruzi growth, we studied the effect of those inhibitors. In Cztreated cells -pre-incubated with TK, PKA or p38 MAPK inhibitors -the balance of NO/urea was biased towards NO, and the amastigote growth was diminished. Besides, genistein and mainly KT5720 induced down-regulation of arginase I expression in Cz-treated cells. Thus, activation of TK, PKA and p38 MAPK by Cz induces an increase of arginase activity in macrophages and the subsequent T. cruzi growth.
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