Cytoplasmic Tyrosine Kinase Structure, Function, and Chemical Biology
Antiretroviral drug discovery
While current antiretroviral drugs have transformed HIV infection from a life-threatening illness to a chronic condition, they do not clear the virus and require life-long administration. Chronic antiretroviral drug exposure can be toxic and promote drug resistance, underscoring the urgent need for new approaches to combat HIV. We have discovered compounds that interfere with the functions of HIV-1 Nef as a new approach to antiretroviral therapy. Unique to primate lentiviruses, Nef is critical for HIV-1 replication in vivo, immune escape of HIV-infected cells, and AIDS progression. Our small molecule HIV-1 Nef inhibitors potently suppress HIV replication and restore immune recognition of HIV-positive cells, raising the exciting possibility of their translational potential in new strategies to eliminate latent viral reservoirs.
Non-receptor tyrosine kinase structure, function and chemical biology
Protein-tyrosine kinases represent exciting drug targets for leukemia and many other cancers. Most current kinase inhibitors compete for ATP binding at the kinase domain active site. However, structural conservation of kinase active sites limits the clinical applications of ATP-competitive kinase inhibitors as well as their utility as chemical probes of individual kinase functions. To address these issues, we are pursuing drug discovery strategies to find small molecules that enhance the natural allosteric mechanisms associated with kinase domain regulation. Chemical library screening assays based on this concept are targeting members of the Src and Tec kinase families. Allosteric inhibitors of these kinases are anticipated to have utility in the treatment of cancer and infectious diseases.
Education
Ph.D., University of Pennsylvania, Philadelphia, PA
Postdoctoral Training
National Cancer Institute, NIH, Bethesda, MA
Department of Microbiology and Molecular Genetics
University of Pittsburgh
Suite 523, Bridgeside Point II
450 Technology Drive
Pittsburgh, PA 15219
Phone: (412) 648-8106
Fax: (412) 624-8997
E-mail: tsmithga@pitt.edu
Website: https://www.mmg.pitt.edu/people/smithgall
