Immunological memory ensures that, once infected by a particular virus or bacteria, individuals are generally protected from a second encounter with that same pathogen. This ability of lymphocytes to “remember” is the basis for protection following vaccination. Little is known about the signaling pathways and molecular mechanisms that regulate the formation and maintenance of memory T cell numbers and functional capacity.

CD8+ T cells are crucial to the control of infection by pathogens that reside in the cytoplasm such as viruses, intracellular bacteria and protozoan parasites. CD8+ T cells recognize pathogen-derived peptides presented by MHC class I molecules, acting as sentinels in the detection of foreign cytoplasmic proteins. Upon encounter with antigen, naive CD8+ T cells proliferate and differentiate to effector T cells, which are armed to eliminate infected cells. Following antigen clearance, the majority of CD8+ effector cells die; however, a subset survive and differentiate further to long-lived memory T cells.

The goal of our research is to understand how CD8+ T cell immunological memory is generated and maintained by identifying the transcriptional and signaling events that regulate the survival and differentiation of T cells as they navigate the immune response and become long-lived memory T cells.

 

 

ANANDA W. GOLDRATH, PhD
Professor of Biological Sciences
University of California, San Diego
5107 Natural Sciences Building 0377
9500 Gilman Drive
La Jolla, CA 92093-0377
agoldrath@ucsd.edu
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