Document Type
Article
Publication Date
2012
Abstract
The inability to acquire protective immunity against Plasmodia is the chief obstacle to malaria control, and inadequate T-cell responses may facilitate persistent blood-stage infection. Malaria is characterized by a highly inflammatory cytokine milieu, and the lack of effective protection against infection suggests that memory T cells are not adequately formed or maintained. Using a genetically targeted strain of Plasmodium berghei, we observed that the Plasmodium ortholog of macrophage migration inhibitory factor enhanced inflammatory cytokine production and also induced antigen-experienced CD4 T cells to develop into short-lived effector cells rather than memory precursor cells. The short-lived effector CD4 T cells were more susceptible to Bcl-2-associated apoptosis, resulting in decreased CD4 T-cell recall responses against challenge infections. These findings indicate that Plasmodia actively interfere with the development of immunological memory and may account for the evolutionary conservation of parasite macrophage migration inhibitory factor orthologs.
Recommended Citation
Sun, T.; Holowka, T.; Song, Y.; Zierow, S.; Leng, L.; Chen, Y.; Xiong, H.; Griffith, J.; Nouraie, M.; Thuma, Philip; Lolis, E.; Janse, C. J.; Gordeuk, V. R.; Augustijn, K.; and Bucala, R., "A Plasmodium-Encoded Cytokine Suppresses T-Cell Immunity During Malaria" (2012). Biology Educator Scholarship. 178.
https://mosaic.messiah.edu/bio_ed/178
Comments
Sun, T., et al. (2012). A Plasmodium-encoded cytokine suppresses T-cell immunity during malaria. Proceedings of the National Academy of Sciences of the United States of America 109(31) E2117-E2126.
© 2012 the authors. Original published version available at https://doi.org/10.1073/pnas.1206573109.
Sun, T., Holowka, T., Song, Y., Zierow, S., Leng, L., Chen, Y., Xiong, H., Griffith, J., Nouraie, M., Thuma, P. E., Lolis, E., Janse, C. J., Gordeuk, V. R., Augustijn, K., & Bucala, R. (2012). A Plasmodium-encoded cytokine suppresses T-cell immunity during malaria. Proceedings of the National Academy of Sciences, 109(31), E2117–E2126. https://doi.org/10.1073/pnas.1206573109