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Mark M. Davis

Academic Appointments

Contact Information

  • Academic Offices
    Administrative Contact
    Barbara Whyte Administrative Assistant Tel Work 650-725-4755

Professional Snapshot

Administrative Appointments

  • The Burt and Marion Avery Family Professor of Immunology, Stanford University School of Medicine (2007 - present)
  • Director, Stanford Institute for Immunity, Transplantation and Infection, Stanford University School of Medicine (2004 - present)
  • Chair, Stanford University School of Medicine - Microbiology & Immunology (2002 - 2004)

Honors and Awards

  • Milton and Francis Clauser Doctoral Prize, Caltech (1981)
  • Passano Young Scientist Award, Passano Foundation (1985)
  • Eli Lilly Award in Microbiology and Immunology, American Society of Microbiology (1986)
  • Howard Taylor Ricketts Award, University of Chicago (1988)
  • Gairdner Prize, Gairdner Foundation (1989)
View all 18honors and awards of Mark Davis

Professional Education

Ph. D.: Caltech, Molecular Biology (1981)
B.A.: The Johns Hopkins University, Molecular Biology (1974)

Graduate & Fellowship Program Affiliations

Industry Relationships

Stanford is committed to ethical and transparent interactions with our industry partners. It is our policy to disclose payments of $5,000 or more, equity valued at $5,000 or more in a publicly traded company, or any equity in a privately held company, to physicians and scientists employed by Stanford University from companies or other commercial entities with which they interact as part of their professional activities. View Full Information

Consulting: Affymetrix , La Jolla Institute for Allergy and Immunology , Novartis

Scientific Focus

Current Research Interests

We are interested in the molecular basis of T and B lymphocyte recognition, as well as the control of differentiation and functional responses in these cells. In particular, we have studied the biochemical basis of T cell receptor binding to antigen/MHC complexes and find that the strength of the interactions is a very good predictor of what the resulting T cell response will be. We also find that T cell receptor-peptide/ MHC complexes have an inherent ability to form oligomers and that this could be part of the ‘trigger’ for T cell activation. One spin-off of these biochemical studies has been the development of tetrameric peptide/MHC reagents which have proven to be generally useful for staining and characterizing antigen-specific T cells in complex mixtures of lymphocytes (i.e. McMichael and Callaghan, J. Exp. Med., 187:1367-1371, 1998). Among other things, we have used these tetramers to follow tumor specific T cells in patients with Melanoma and other cancers. In one patient where we see a substantial number of CD8+ T cells specific for a tumor antigen, the cells have no cytolytic activity and thus seem to have been ‘anergized’ by the tumor. We are now working with a number of groups that have developed different vaccination strategies to determine which strategies are best able to produce a useful response.

Another important aspect of T cell recognition that is something of a ‘black box’ is the mystery of what actually happens on the surface of T cell while it is surveying an antigen presenting cell. To investigate this we have made a large series of green fluorescent protein tagged cell surface molecules, expressed them in B or T lymphocytes and followed their movements using multi-color video microscopy. Thus far we find that many key molecules (ICAM-1, CD48, class II, MHC) on the B cell cluster to the interface with a T cell within seconds after the first rise in internal calcium (in the T cell) and the corresponding movement of complimentary membrane...

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