TSRI Faculty Interests

Flow Cytometry

Burton, Dennis  
focuses his research primarily on human antibody responses to HIV and the design of an HIV vaccine. He has also worked on the interaction of antibodies and other pathogens, including respiratory syncytial virus, Ebola virus and prion proteins.

Felding-Habermann, Brunhilde  
establishes unique models of brain metastasis from circulating tumor cells of breast cancer patients and analyzes their properties in vitro and in vivo, investigates genes and functional pathways that control metastatic activity.

Friedlander, Martin  
examines the mechanisms whereby proteins are asymmetrically integrated into cell membranes and studies the basic mechanisms of ocular angiogenesis and potential therapeutic applications for treating degenerative retinal and neovascular eye diseases.

Gascoigne, Nicholas  
examines molecular and genetic interactions in T cell development and activation, including the spatiotemporal analysis of signaling cascades using fluorescence resonance energy transfer (FRET) and other techniques to image molecular interactions in live cells.

Havran, Wendy  
studies a unique subset of T lymphocytes, called "gamma-delta" T cells, which reside in epithelial tissues, are derived from fetal precursors, express a tissue-specific, invariant antigen receptor, and are involved in tissue repair as well as epithelial inflammatory diseases such as asthma and ulcerative colitis.

Jameson, Julie  
is examining the mechanisms involved in the dysregulation of skin γδ T cells in nonhealing wounds.

Lazzerini Denchi, Eros  
focuses on the mechanisms that protect chromosome ends and their deregulation in human pathologies such as cancer and aging

McHeyzer-Williams, Michael G. 
studies the cellular and molecular regulation of antigen-specific immune memory in vivo with emphasis on the innate/adaptive interface and helper T cell regulated B cell responses to optimize vaccines.

McKay, Dianne  
explores the intracellular signaling events and pathways that lead to the tolerance or rejection of transplanted organs by T cells.

Milner, Richard  
uses a combination of mouse models and tissue culture cell–based assays to examine the role of fibronectin and endothelial fibronectin receptors in promoting cerebral angiogenesis during cerebral hypoxia and ischemia.

Morris, Kevin  
is interested in understanding the mechanism of long antisense non-coding RNA mediated transcriptional regulation in human cells in order to develop small antisense non-coding RNA based approaches to regulate HIV-1 and human cancer.

Mueller, Ulrich  
focuses on the genes and the gene mutations that contribute to the pathology of Usher syndrome, other human diseases related to mechanosensory perception, and central nervous system diseases

Nemazee, David  
studies "receptor editing," a novel immunological tolerance mechanism in which developing B lymphocytes that carry autoreactive cell surface antibody are stimulated to "reprogram" their immunoglobulin genes by further rounds of DNA recombination.

Oldstone, Michael  
studies the interaction of viruses and the immune system, how viruses persist and the resultant disease, how a non-lytic virus alters the differentiation function of the infected cell, investigates infectious protein folding disease and uses transgenic mouse models to understand human diseases. Included are molecular explorations for how viruses suppress the immune system or on the other side of the coin, induce autoimmunity.

Quigley, James  
uses in vivo models, directed enzyme inhibitors and specific function-blocking antibodies to identify pathways and molecules which contribute to tumor metastasis and angiogenesis.

Reed, Steven  
focuses on the regulation of cell cycle progression through cyclin-dependent kinases and related proteins, particularly the role of regulated proteolysis in cell cycle control and how defects in the proteolytic machinery can promote carcinogenesis.

Romesberg, Floyd  
seeks to understand and evolve novel protein function by expanding the genetic code, to understand the molecular basis of DNA damage, repair, and mutagenesis, and to use femtosecond laser pulses to probe protein dynamics.

Salomon, Daniel  
investigates how molecular mechanisms driving immune cell activation and tissue injury, both critical components of cell and organ transplant rejection, are regulated at the gene transcriptional and proteomic level to map molecular networks that determine clinical outcomes.

Sauer, Karsten  
We combine broad functional genomics approaches with traditional, hypothesis-driven research to identify and functionally characterize novel genes with important roles in lymphocyte development and function. A particular focus of the lab are signal transduction mechanisms downstream of the T cell receptor.

Sherman, Linda  
looks at the immune system's basic strategy of discriminating between "self" and "non-self" through T lymphocytes, seeking to augment their ability to respond to certain self-antigens on tumor cells and to diminish their aberrant destruction of self-tissue in autoimmune diseases.

Sun, Peiqing  
seeks to delineate the signal transduction pathways mediating cellular responses to oncogenic mutations, and to systematically search for genetic alterations that contribute to specific cancer-associated phenotypes by screening cDNA expression libraries and siRNA libraries.

Surh, Charles  
studies how naive and memory T cells develop and survive under normal physiological conditions, and explores new ways of modulating T cells populations for treatment of cancer and autoimmune diseases.

Torbett, Bruce  
studies transcriptional regulation of myeloid development and function, develops and tests novel techniques for delivering genes to cells to provide protection against HIV or cancer; he also investigates how the structural changes in HIV protease contribute to biochemical functions that confer protease inhibitor resistance.

Whitton, J. Lindsay  
studies antiviral immunity mediated by the recognition of viral peptides by host cells, the basis of immunization with plasmid DNA vaccines, and the role of the immune system in viral pathogenesis during coxsackievirus infections.

Wittenberg, Curt  
studies the role of cell cycle regulated transcription and proteolysis in cell cycle regulation via cyclin dependent protein kinases.

Xiao, Changchun  
studies the functions of microRNA control and its underlying molecular mechanisms in the mammalian immune system, under health and disease conditions.

Zwick, Michael  
dissects the molecular requirements of neutralization of HIV by antibodies, particularly those against the envelope glycoprotein, gp41; develops strategies for selecting HIV neutralizing antibodies and HIV envelope glycoprotein variants, to inform vaccine design.