Wells containing either DCs or NK cells alone were used as controls

Wells containing either DCs or NK cells alone were used as controls. and up-regulated beneficial anti-inflammatory cytokine responses and Th2 responses. These inhibitor effects resulted in reduced granzyme B Diosmetin Diosmetin expression by T cells, chemokine and intracellular cell adhesion molecule 1 (ICAM-1) expression Diosmetin in the brain, and chemokine receptor expression by both myeloid and T cells. These bimodal effects of the MEK1/2 inhibitor treatment on immune responses contributed to decreased parasite biomass, organ inflammation, and immune cell recruitment, preventing tissue damage and death. In summary, we have identified several previously unrecognized immune regulatory processes through which a MEK1/2 inhibitor approach controls malaria parasitemia and mitigates pathogenic effects on host organs. parasite species cause malaria, but and, to a much lesser extent, cause severe and fatal malaria (1, 2). Mass vaccination is the best strategy to prevent malaria. Diosmetin However, producing an effective vaccine remains challenging (3, Diosmetin 4). The use of anti-parasitic drugs, such as quinine derivatives, is becoming increasingly problematic because parasites have developed widespread resistance (5), and substantial Rabbit Polyclonal to IL-2Rbeta (phospho-Tyr364) resistance has also emerged to artemisinins, which are currently used (6). Malaria parasites have a high propensity to develop drug resistance; therefore, alternative strategies are required to treat malaria. Considering that severe malaria complications are immune-mediated, modulators of immune responses are attractive alternatives to prevent severe malaria pathogenesis and concurrently to control infection. Immunomodulators may also help to increase the efficacy of a vaccine. This approach may circumvent the problem of parasites developing drug resistance, but more information about the regulation of immune-mediated pathology is required before such approaches can be pursued. The initial clinical manifestations of malaria, such as periodic fever, chills, headache, and malaise, are the outcome of elevated levels of pro-inflammatory mediators produced in response to the blood stage parasites (7, 8). In the case of ANKA (PbA)-infected C57BL/6 mice, an established model of experimental cerebral malaria (ECM) (23, 24), we studied the immunomodulatory effects of inhibitors of MEK1/2, the kinases immediately upstream of ERK1/2 in the signaling cascade, on immune responses to malaria and ECM pathogenesis. Several interesting findings emerged. MEK1/2 inhibitor treatment resulted in B1 cell expansion, IgM production, phagocytic receptor expression, and phagocytosis of parasites by macrophages (Ms) and neutrophils (PMNs) and thus contributed to a marked increase in parasite clearance. MEK1/2 inhibitor treatment also down-regulated pro-inflammatory responses by innate immune and T cells, reduced infiltration of immune cells into the brain, and prevented pathogenesis of ECM. Thus, our results provide significant new information on the effect of MEK1/2 inhibitor treatment in immune responses that contribute to malaria pathogenesis. Results Inhibitors of MEK1/2 prevent severe malaria pathogenesis To determine the immunomodulatory role of MEK1/2 in severe malaria pathogenesis, we targeted these kinases by using small-molecule inhibitors and analyzed parasite growth kinetics, clinical episodes, and survival of the host in the mouse CM model. Although the present study used the ECM model, the knowledge gained may be generally applicable to other forms of severe malaria illnesses. The MEK1/2 were targeted with PD98059 (PD), a specific inhibitor. To ensure that the observed effects were not due to a direct anti-parasitic effect of PD, we tested whether PD has an inherent parasite growthCinhibitory property. Cultured treated with even 200 m PD grew normally (Fig. 1with 24 g/ml or 48 g/ml PD were as healthy as those of untreated control parasites, whereas parasites treated with 400 ng/ml chloroquine died as.

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