Spyros A. Kalams, M.D.

Associate Professor of Medicine, Adult Infectious Disease
Associate Professor of Pathology, Microbiology and Immunology
A-2200 Medical Center North
1161 21st Avenue South
Nashville
Tennessee
37232-2582
615-322-8688

Cellular immune responses directed against viral and bacterial pathogens; therapeutic immunization, HIV vaccines

Research Information

Dr. Kalams joined the Infectious Disease staff at Vanderbilt University in 2002. Dr. Kalams is currently the director of viral immunology studies in the Vanderbilt Infectious Diseases Unit and is the Principal Investigator of the Vanderbilt HIV Vaccine Trials Unit. He is also the Director of the Laboratory Sciences Core of the Tennessee Center For AIDS Research. His laboratory investigates new strategies to quantitate HIV-specific cytotoxic T cell (CTL) and helper responses, which will be important for the evaluation of vaccines entering clinical trials. 

Dr. Kalams was the first to demonstrate the persistence of HIV-1 specific cytotoxic T lymphocyte (CTL) clones in vivo during chronic HIV infection, and has received NIH R01-funding to 1) Evaluate why CTL responses decline with disease progression, 2) Assess the T-cell repertoire of developing and established immune responses, and 3) Determine whether the avidity of developing CTL responses influences viral set point. Other research interests include understanding the mechanisms of immune escape from CTL recognition (to evaluate the role HIV sequence variation plays in disease progression), and the evaluation of CTL responses of patients with long-term non-progressing HIV-1 infection (to evaluate whether patients without disease progression have unique or more robust immune responses). 

Current active projects include the development of mass cytometry as a platform for evaluation of T cell phenotype and function, and molecular analysis of pathogen-specific T cells. We have developed assays to sort individual T cells, followed by identification of their T cell receptor alpha beta chain usage as well as their transcriptional profile. This allows an in depth evaluation of T cell responses after either natural infection or vaccination.

Publications on PubMed.gov