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Phenotype and function of IL-10–producing NK cells in individuals with malaria experience
Sarah A. McNitt, Jenna K. Dick, Maria Andrea Hernandez-Castaneda, Jules Sangala, Mark Pierson, Marissa Macchietto, Kristina S. Burrack, Peter D. Crompton, Karl Seydel, Sara E. Hamilton, Geoffrey T. Hart
Sarah A. McNitt, Jenna K. Dick, Maria Andrea Hernandez-Castaneda, Jules Sangala, Mark Pierson, Marissa Macchietto, Kristina S. Burrack, Peter D. Crompton, Karl Seydel, Sara E. Hamilton, Geoffrey T. Hart
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Research Article Immunology Infectious disease

Phenotype and function of IL-10–producing NK cells in individuals with malaria experience

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Abstract

P.falciparum infection can trigger high levels of inflammation that lead to fever and sometimes severe disease. People living in malaria-endemic areas gradually develop resistance to symptomatic malaria and control both parasite numbers and the inflammatory response. We previously found that adaptive NK cells correlated with reduced parasite load and protection from symptoms. We also found that murine NK cell production of IL-10 protected mice from experimental cerebral malaria. Human NK cells can also secrete IL-10, but it is unknown what NK cell subsets produce IL-10 or if this is affected by malaria experience. We hypothesized that NK cell immunoregulation may lower inflammation and reduce fever induction. Here, we showed that NK cells from participants with malaria experience make significantly more IL-10 than participants with no malaria experience. We then determined the proportions of NK cells that are cytotoxic and produce IFN-γ and/or IL-10 and identified a signature of adaptive and checkpoint molecules on IL-10–producing NK cells. Lastly, we found that coculture with primary monocytes, Plasmodium-infected RBCs, and antibody induced IL-10 production by NK cells. These data suggest that NK cells may contribute to protection from malaria symptoms via IL-10 production.

Authors

Sarah A. McNitt, Jenna K. Dick, Maria Andrea Hernandez-Castaneda, Jules Sangala, Mark Pierson, Marissa Macchietto, Kristina S. Burrack, Peter D. Crompton, Karl Seydel, Sara E. Hamilton, Geoffrey T. Hart

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Figure 2

NK cells produce IL-10 during antibody-dependent cellular cytotoxicity (ADCC) and natural cytotoxicity.

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NK cells produce IL-10 during antibody-dependent cellular cytotoxicity (...
(A) Experimental design for ADCC and natural cytotoxicity assays. Patients from Figure 1 are the same as those in Figure 2 for the control, ADCC, and natural cytotoxicity groups when sufficient cell numbers were available to perform multiple assays. (B) IL-10 production from NK cells treated with IL-15 alone (control) (left), with IL-15 and IL-21 for 6 days followed by IL-12 and either an ADCC (middle) or natural cytotoxicity (right) assay. (C and D) Comparison of ADCC or natural cytotoxicity-induced IL-10 production from the NK cells of malaria-naive (C) or malaria-experienced (D) individuals. (E and F) Comparison of IL-10 production from malaria susceptible individuals before the malaria season (Pre-Malaria), when they got malaria (Malaria), and 7 days after they were treated for malaria (Convalescent) for ADCC (E) or natural cytotoxicity (F). Red horizonal lines represent median values ***P < 0.001 ****P < 0.001 as determined by 1-way ANOVA with Tukey’s multiple-comparison test (C–F). In a Kruskal-Wallis test with Dunn’s post hoc comparisons, the ADCC and natural cytotoxicity groups were not significantly different from the cytokine stimulation group in Figure 1 (Supplemental Figure 1B).

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