Gammaherpesvirus Co-infection with Malaria Suppresses Anti-parasitic Humoral Immunity

Immunity to non-cerebral severe malaria is estimated to occur within 1-2 infections in areas of endemic transmission for Plasmodium falciparum. Yet, nearly 20% of infected children die annually as a result of severe malaria. Multiple risk factors are postulated to exacerbate malarial disease, one be...

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Veröffentlicht in:	PLoS pathogens 2015-05, Vol.11 (5), p.e1004858-e1004858
Hauptverfasser:	Matar, Caline G, Anthony, Neil R, O'Flaherty, Brigid M, Jacobs, Nathan T, Priyamvada, Lalita, Engwerda, Christian R, Speck, Samuel H, Lamb, Tracey J
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Schlagworte:	Age Animals Antigens Cell Differentiation - immunology Children & youth Coinfection - immunology Female Herpesviridae - immunology Herpesviridae Infections - immunology Herpesvirus infections Host-bacteria relationships Host-virus relationships Identification and classification Immune response Immunity, Humoral - immunology Infections Lymphoma Malaria Malaria - immunology Malaria - virology Mice, Inbred C57BL Pediatrics Physiological aspects Proteins Spleen Viral infections Virus Activation - immunology Virus Latency - immunology
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description	Immunity to non-cerebral severe malaria is estimated to occur within 1-2 infections in areas of endemic transmission for Plasmodium falciparum. Yet, nearly 20% of infected children die annually as a result of severe malaria. Multiple risk factors are postulated to exacerbate malarial disease, one being co-infections with other pathogens. Children living in Sub-Saharan Africa are seropositive for Epstein Barr Virus (EBV) by the age of 6 months. This timing overlaps with the waning of protective maternal antibodies and susceptibility to primary Plasmodium infection. However, the impact of acute EBV infection on the generation of anti-malarial immunity is unknown. Using well established mouse models of infection, we show here that acute, but not latent murine gammaherpesvirus 68 (MHV68) infection suppresses the anti-malarial humoral response to a secondary malaria infection. Importantly, this resulted in the transformation of a non-lethal P. yoelii XNL infection into a lethal one; an outcome that is correlated with a defect in the maintenance of germinal center B cells and T follicular helper (Tfh) cells in the spleen. Furthermore, we have identified the MHV68 M2 protein as an important virus encoded protein that can: (i) suppress anti-MHV68 humoral responses during acute MHV68 infection; and (ii) plays a critical role in the observed suppression of anti-malarial humoral responses in the setting of co-infection. Notably, co-infection with an M2-null mutant MHV68 eliminates lethality of P. yoelii XNL. Collectively, our data demonstrates that an acute gammaherpesvirus infection can negatively impact the development of an anti-malarial immune response. This suggests that acute infection with EBV should be investigated as a risk factor for non-cerebral severe malaria in young children living in areas endemic for Plasmodium transmission.
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Yet, nearly 20% of infected children die annually as a result of severe malaria. Multiple risk factors are postulated to exacerbate malarial disease, one being co-infections with other pathogens. Children living in Sub-Saharan Africa are seropositive for Epstein Barr Virus (EBV) by the age of 6 months. This timing overlaps with the waning of protective maternal antibodies and susceptibility to primary Plasmodium infection. However, the impact of acute EBV infection on the generation of anti-malarial immunity is unknown. Using well established mouse models of infection, we show here that acute, but not latent murine gammaherpesvirus 68 (MHV68) infection suppresses the anti-malarial humoral response to a secondary malaria infection. Importantly, this resulted in the transformation of a non-lethal P. yoelii XNL infection into a lethal one; an outcome that is correlated with a defect in the maintenance of germinal center B cells and T follicular helper (Tfh) cells in the spleen. Furthermore, we have identified the MHV68 M2 protein as an important virus encoded protein that can: (i) suppress anti-MHV68 humoral responses during acute MHV68 infection; and (ii) plays a critical role in the observed suppression of anti-malarial humoral responses in the setting of co-infection. Notably, co-infection with an M2-null mutant MHV68 eliminates lethality of P. yoelii XNL. Collectively, our data demonstrates that an acute gammaherpesvirus infection can negatively impact the development of an anti-malarial immune response. 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subjects	Age Animals Antigens Cell Differentiation - immunology Children & youth Coinfection - immunology Female Herpesviridae - immunology Herpesviridae Infections - immunology Herpesvirus infections Host-bacteria relationships Host-virus relationships Identification and classification Immune response Immunity, Humoral - immunology Infections Lymphoma Malaria Malaria - immunology Malaria - virology Mice, Inbred C57BL Pediatrics Physiological aspects Proteins Spleen Viral infections Virus Activation - immunology Virus Latency - immunology
title	Gammaherpesvirus Co-infection with Malaria Suppresses Anti-parasitic Humoral Immunity
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