Abstract
ABSTRACTThe resolution of malaria infection is dependent on a balance between proinflammatory and regulatory immune responses. While early effector T cell responses are required for limiting parasitemia, these responses need to be switched off by regulatory mechanisms in a timely manner to avoid immune-mediated tissue damage. Interleukin-10 receptor (IL-10R) signaling is considered to be a vital component of regulatory responses, although its role in host resistance to severe immune pathology during acute malaria infections is not fully understood. In this study, we have determined the contribution of IL-10R signaling to the regulation of immune responses during Plasmodium berghei ANKA-induced experimental cerebral malaria (ECM). We show that antibody-mediated blockade of the IL-10R during P. berghei ANKA infection in ECM-resistant BALB/c mice leads to amplified T cell activation, higher serum gamma interferon (IFN-γ) concentrations, enhanced intravascular accumulation of both parasitized red blood cells and CD8+ T cells to the brain, and an increased incidence of ECM. Importantly, the pathogenic effects of IL-10R blockade during P. berghei ANKA infection were reversible by depletion of T cells and neutralization of IFN-γ. Our findings underscore the importance of IL-10R signaling in preventing T-cell- and cytokine-mediated pathology during potentially lethal malaria infections.
Highlights
The resolution of malaria infection is dependent on a balance between proinflammatory and regulatory immune responses
We have shown that blocking Interleukin-10 receptor (IL-10R) facilitates the development of acute immune pathology in normally experimental cerebral malaria (ECM)-resistant BALB/c mice with pathological features compatible with ECM in susceptible C57BL/6 mice
IL-10R signaling plays a vital role in the prevention of immune-mediated neuropathology during P. berghei ANKA infection of ECM-resistant BALB/c mice
Summary
The resolution of malaria infection is dependent on a balance between proinflammatory and regulatory immune responses. Experimental CM (ECM) due to Plasmodium berghei ANKA infection in susceptible C57BL/6 mice mimics the neurological signs observed during human CM, including ataxia and/or paralysis, which rapidly deteriorate to convulsions, coma, and death 7 to 10 days postinfection [1, 2]. Histological examination of both CM and ECM brain sections reveals the presence of petechial hemorrhages [3,4,5]. Blockade of the CTLA-4 or PD-1/ PD-L1 pathway in P. berghei ANKA-infected BALB/c mice led to the development of ECM with characteristics similar to those observed in C57BL/6 mice
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