News Release

Can a viral co-infection impair immunity against Plasmodium and turn malaria lethal?

Peer-Reviewed Publication


Mouse Spleen Cross Section

image: This is an immune-fluorescence staining of cross section of whole spleen. Green: B220 marker for B cells, Red: CD3 marker for T cells, and Blue: GL7 marker for germinal center cells. view more 

Credit: Matar et al., CC-BY

It is known that infections with certain viruses can weaken the immune response to another pathogen. A study published on May 21st in PLOS Pathogens reports provocative findings in mice that infection with the mouse equivalent of Epstein-Barr virus (EBV) can turn infections with certain parasites that cause malaria in mice (which are normally quickly suppressed by the immune system) into a lethal disease.

In Sub-Saharan Africa, infants are infected with EBV, a gammaherpesvirus that infects B cells and, like HIV, remains present throughout the lifetime of the host. Children infected with EBV who live in areas where malaria is common have an increased risk of developing Burkitt's lymphoma, a cancer linked to EBV.

To investigate whether EBV infection could also affect the course of malaria disease, a team of researchers led by Tracey Lamb and Samuel Speck, both from Emory University, Atlanta, USA, studied the consequences of co-infection with of a gammaherpesevirus and two different parasites that cause malaria in mice.

Where normally immune cells expand and mount a rapid and precise defense against an intruder, acute murine gammaherpesvirus 68 (MHV68) infections of mice, like acute EBV infections in humans, can induce a transient suppression of the antibody immune response during a subsequent infection by another pathogen.

The researchers used two well-established non-lethal strains of mouse parasites called Plasmodium yoelii XNL and P. chabaudi AS, and determined that acute MHV68 infection can suppress the anti-malarial antibody response during co-infection with either of these Plasmodium strains. This immune suppression resulted in loss of control of the P. yoelii parasites and transformed the usually non-lethal infection into a lethal one characterized by severe malarial anemia. (Immunity against P. chabaudi depends less on antibody-mediated immunity, and those parasites remained controlled.)

Examining the mechanism by which the virus impaired the anti-malaria immune response, the researchers found that the reduced anti-Plasmodium antibody response during co-infection coincided with the knock-out of a critical component of an immune response to a known pathogen--the so-called T follicular helper cells in the spleen.

Loss of these T helper cells resulted in loss of pathogen-specific B cells (the precursors of antibody-producing plasma cells) and a failure to develop sufficient plasma cell numbers to produce anti-Plasmodium antibodies that could control the infection. The researchers also identified that a specific protein of the MHV68 virus called M2 is essential for suppression of the anti-Plasmodium antibody response causing lethal malaria in the mice.

"Our work", the researchers conclude, "provides compelling evidence that acute gammaherpesvirus infection can negatively modulate the humoral immune response to malaria infection". There are few human and no large epidemiological studies exploring a possible link between EBV infection and severe malarial anemia, but the researchers suggest that their mouse data are consistent with the existing human evidence on the immunosuppressive effects of EBV and justify investigation of "how EBV infection might impact the development of P. falciparum humoral immunity in young children living in malaria endemic areas".



Samuel Speck
phone: +1.404.727.7665

Tracey Lamb
phone: +1.404.712.7883

Please use this URL to provide readers access to the paper (Link goes live upon article publication):

Related Image for Press Use:
Caption: Immune-fluorescence staining of cross section of whole spleen. Green: B220 marker for B cells, Red: CD3 marker for T cells, and Blue: GL7 marker for germinal center cells.
Credit: Matar et al., CC-BY

Authors and Affiliations:
Caline G. Matar, Emory University School of Medicine, USA
Neil R. Anthony, Emory University School of Medicine, USA
Brigid M. O'Flaherty, Emory University School of Medicine, USA
Nathan T. Jacobs, Emory University School of Medicine, USA
Lalita Priyamvada, Emory University School of Medicine, USA
Christian R. Engwerda, QIMR Berghofer Medical Research Institute, Australia
Samuel H. Speck, Emory University School of Medicine, USA
Tracey J. Lamb, Emory University School of Medicine, USA

Please contact if you would like more information.

Funding: This work was supported by R21 AI099847 to SHS and a pilot grant from the Queensland-USA Technology Alliance to SHS and CRE. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Competing Interests: The authors have declared that no competing interests exist.

Citation: Matar CG, Anthony NR, O'Flaherty BM, Jacobs NT, Priyamvada L, Engwerda CR, et al. (2015) Gammaherpesvirus Co-infection with Malaria Suppresses Anti-parasitic Humoral Immunity. PLoS Pathog 11(5): e1004858. doi:10.1371/journal.ppat.1004858

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.