Dr. Oliver investigates the mechanisms governing T cell activation and protective immunity. Her goal is to define mechanisms that, when dysregulated, result in autoimmunity or allergic disorders like asthma.
Dr. Tong investigates cytokine receptor signaling in normal and neoplastic hematopoietic development. She uses integrated approaches encompassing biochemistry, molecular biology, mouse models, and primary human samples to understand signaling events emanating from cytokine receptors that regulate the development of hematopoietic stem/progenitor cells.
Dr. Bassing's research program focuses on the genetic, epigenetic, and biochemical mechanisms by which mammals develop their immune systems while suppressing autoimmunity and genomic aberrations that cause leukemia or lymphoma.
When you have a chronic allergic disorder, it’s easy to blame the trigger — an early pollen season or furry pet — but the real culprit is your own immune system. Designed to attack foreign substances such as bacteria and viruses, T cells are the immune system’s watchdog to recognize serious threats. But sometimes T cells can be too zealous and set in motion a signaling cascade that can cause allergic reactions to everyday things and even attack your body’s healthy cells by mistake.
The Oliver Lab focuses on revealing mechanisms governing T cell activation and protective immunity. Its goal is to define mechanisms that, when dysregulated, result in autoimmunity or allergic disorders like asthma. The Oliver Lab has discovered several enzymes of the ubiquitin pathway that prevent autoimmune disease or, in other cases, prevent asthma, atopic dermatitis, or eosinophilic gastrointestinal disorders.
Research in the Weitzman Lab aims to understand host responses to virus infection, and the cellular environment encountered and manipulated by viruses. The lab studies multiple viruses in an integrated experimental approach that combines biochemistry, molecular biology, genetics, and cell biology.