Ana Paula Freitas do Rosario

Publications (4)16.57 Total impact

• Article: T cell-derived IL-10 and its impact on the regulation of host responses during malaria.

  Ana Paula Freitas do Rosario, Jean Langhorne
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  ABSTRACT: Despite intense research, malaria still is the one of the most devastating diseases killing more people than any other parasitic infection. In an attempt to control the infection, the host immune system produces a potent pro-inflammatory response. However, this response is also associated with complications, such as severe anaemia, hypoglycaemia and cerebral malaria. This pronounced production of pro-inflammatory cytokines response is a common feature of malaria caused by parasites infecting humans as well as rodents and primates. A balance between pro- and anti-inflammatory responses may be fundamental to the elimination of the parasite without inducing excessive host pathology. IL-10 is a key cytokine that has been shown to have an important regulatory function in establishing this balance in malaria. Here we discuss which cells can produce IL-10 during infection, and present an overview of the evidence showing that T-cell derived IL-10 plays an important role in regulating malaria pathology. Many different subsets of T cells can produce IL-10, however, evidence is accumulating that it is effector Th1 CD4(+) T cells which provide the crucial source that down-regulates inflammatory pathology during blood-stage malaria infections.
  International journal for parasitology 04/2012; 42(6):549-55. · 3.39 Impact Factor
• Source

  Available from: Anne-Marit Sponaas

  Article: IL-22 Protects Against Liver Pathology and Lethality of an Experimental Blood-Stage Malaria Infection.

  Béatris Mastelic, Ana Paula Freitas do Rosario, Marc Veldhoen, Jean Christophe Renauld, William Jarra, Anne-Marit Sponaas, Sophie Roetynck, Brigitta Stockinger, Jean Langhorne
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  ABSTRACT: The host response following malaria infection depends on a fine balance between levels of pro-inflammatory and anti-inflammatory mediators resulting in the resolution of the infection or immune-mediated pathology. Whilst other components of the innate immune system contribute to the pro-inflammatory milieu, T cells play a major role. For blood-stage malaria, CD4(+) and γδ T cells are major producers of the IFN-γ that controls parasitemia, however, a role for TH17 cells secreting IL-17A and other cytokines, including IL-17F and IL-22 has not yet been investigated in malaria. TH17 cells have been shown to play a role in some protozoan infections, but they also are a source of pro-inflammatory cytokines known to be involved in protection or pathogenicity of infections. In the present study, we have investigated whether IL-17A and IL-22 are induced during a Plasmodium chabaudi infection in mice, and whether these cytokines contribute to either protection or to pathology induced during the infection. Although small numbers of IL-17- and IL-22-producing CD4 T cells are induced in the spleens of infected mice, a more pronounced induction is observed in the liver, where increases in mRNA for IL-17A and, to a lesser extent, IL-22 were observed and CD8(+) T cells, rather than CD4 T cells, are a major source of these cytokines in this organ. Although the lack of IL-17 did not affect the outcome of infection or pathology, lack of IL-22 resulted in 50% mortality within 12 days after infection with significantly greater weight loss at the peak of infection and significant increase in alanine transaminase in the plasma in the acute infection. As parasitemias and temperature were similar in IL-22 KO and wild-type control mice, our observations support the idea that IL-22 but not IL-17 provides protection from the potentially lethal effects of liver damage during a primary P. chabaudi infection.
  Frontiers in immunology. 01/2012; 3:85.
• Article: Recent advances in malaria research: new tools to understand an old enemy.

  Ana Paula Freitas do Rosario, Jean Langhorne, Patrick E Duffy, Olivia C Finney
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  ABSTRACT: Scientists who gathered at the most recent Keystone Symposia meeting on malaria described several advances, including applications of new technologies as well as new insights into pathogenesis and immunology. Enhanced tools to visualize the immune response to the Plasmodium pathogen, and systems biology approaches to interrogate host-parasite interactions, are altering our understanding of immunity and disease. At the same time, a partially effective subunit vaccine in human trials, and new models of highly protective human immunity, are raising expectations for immunological control of this ancient pandemic.
  Expert Review of Anticancer Therapy 08/2010; 8(8):863-6. · 3.28 Impact Factor
• Article: Migrating monocytes recruited to the spleen play an important role in control of blood stage malaria.

  Anne-Marit Sponaas, Ana Paula Freitas do Rosario, Cecile Voisine, Beatris Mastelic, Joanne Thompson, Sandra Koernig, William Jarra, Laurent Renia, Marjorie Mauduit, Alexandre J Potocnik, Jean Langhorne
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  ABSTRACT: Host responses controlling blood-stage malaria include both innate and acquired immune effector mechanisms. During Plasmodium chabaudi infection in mice, a population of CD11b(high)Ly6C(+) monocytes are generated in bone marrow, most of which depend on the chemokine receptor CCR2 for migration from bone marrow to the spleen. In the absence of this receptor mice harbor higher parasitemias. Most importantly, splenic CD11b(high)Ly6C(+) cells from P chabaudi-infected wild-type mice significantly reduce acute-stage parasitemia in CCR2(-/-) mice. The CD11b(high)Ly6C(+) cells in this malaria infection display effector functions such as production of inducible nitric oxide synthase and reactive oxygen intermediates, and phagocytose P chabaudi parasites in vitro, and in a proportion of the cells, in vivo in the spleen, suggesting possible mechanisms of parasite killing. In contrast to monocyte-derived dendritic cells, CD11b(high)Ly6C(+) cells isolated from malaria-infected mice express low levels of major histocompatibility complex II and have limited ability to present the P chabaudi antigen, merozoite surface protein-1, to specific T-cell receptor transgenic CD4 T cells and fail to activate these T cells. We propose that these monocytes, which are rapidly produced in the bone marrow as part of the early defense mechanism against invading pathogens, are important for controlling blood-stage malaria parasites.
  Blood 10/2009; 114(27):5522-31. · 9.90 Impact Factor