Bana Jabri, MD, PhD
Contact
Departments of Medicine, Pathology and Pediatrics5841 South Maryland Ave
AMB G-705C, MC 1089
Chicago, IL 60637
Phone: 773-834-8670
Fax: 773-834-5251
bjabri@bsd.uchicago.edu
Research Interest
Regulation of effector/memory T cells in tissues.
To face multiple environmental aggressions from pathogens and dietary elements, the intestinal mucosa is colonized by an army of mobile antigen-specific effector T lymphocytes and by a distinct population of resident T cells involved in the tissue stress response. The intestine is in fact the only mammalian site allowing ready access to the effector phase of immune responses in the tissue microenvironment.
We study a family of surface receptors called NKG2 that are differentially expressed by subsets of intestinal T cells and regulate the signaling threshold of the T cell antigen receptor through the recruitment of tyrosine phosphatase and kinase. The NKG2 ligands are MHC-I like molecules induced by intestinal epithelial cells upon stress and inflammation. The NKG2 receptors expressed by T cells are themselves regulated by two opposing cytokines IL-15 and TGF secreted by epithelial cells.
This complex system, which ensures the fine-tuning of immune responses by the tissue environment itself, appears to be dysregulated in autoimmune and cancer conditions. A second line of study in the laboratory focuses on an intestinal disease associated with such a dysregulation of the NKG2 system, celiac disease. Celiac disease is provoked by intestinal exposure to a well known dietary antigen, gliadin, in humans expressing the HLA-DQ2 or DQ8 molecules. Using HLA/gliadin tetramers to physically identify the effector T cells in humans and in humanized mouse models, we are dissecting the sequence of events leading to the destruction of intestinal epithelial cells.
Overall, we use a range of molecular and cellular approaches, including the study of signal transduction, cellular immunology and genetic engineering of mouse models, to study the developmental and functional aspects of immune function in the mouse and human intestine. These studies address basic immunological questions and may lead to novel insights into the mechanisms of inflammatory intestinal diseases.
Selected Publications
- Sabri B, Selby JM, Negulescu H, Lee L, Roberts AI, Beavis A, Lopez-Botet M, Ebert EC, Winchester RJ. TCR Specificity Dictates CD94/NKG2A Expression by Human CTL. Immunity. 2002 17:487.
- Roberts AI, Lee L, Schwarz E, Groh V, Spies T, Ebert EC, Jabri B. Cutting Edge: NKG2D receptors induced by IL-15 costimulate CD28-negative effector CTL in the tissue microenvironment. J Immunol 2001 Nov 15;167(10):5527-30.
- Jabri B, de Serre NP, Cellier C, Evans K, Gache C, Carvalho C, Mougenot JF, Allez M, Jian R, Desreumaux P, Colombel JF, Matuchansky C, Cugnenc H, Lopez-Botet M, Vivier E, Moretta A, Roberts AI, Ebert EC, Guy-Grand D, Brousse N, Schmitz J, Cerf-Bensussan N. Selective expansion of intraepithelial lymphocytes expressing the HLA-E-specific natural killer receptor CD94 in celiac disease. Gastroenterology, 118:867-879. 2000
- Park SH, Guy-Grand D, Lemonnier FA, Wang CR, Bendelac A, Jabri B. Selection and expansion of CD8alpha/alpha(1) T cell receptor alpha/beta(1) intestinal intraepithelial lymphocytes in the absence of both classical major histocompatibility complex class I and nonclassical CD1 molecules.. J Exp Med 1999 Sep 20;190(6):885-90.
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The University of Chicago · 5841 S. Maryland Avenue · Chicago, IL 60637
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