Fu, Shu Man
Primary Appointment
Professor, Medicine: Rheumatology and Immunology
Education
- MD, , Stanford Medical School
- PhD, Immunology, Rockefeller University, New York, NY
- Residency, Internal Medicine, Stanford University
Contact Information
Center for Immunity, Inflammation and Regenerative Medicine
PO Box 800133
Charlottesville, VA 22908-0133
Telephone: 434-924-9627
Fax: 434-924-9578
Email: sf2e@virginia.edu
Research Interests
Human lymphocyte biology and autoimmunity
Research Description
Autoimmunity plays an important role in systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA). The emphasis of my laboratory is on the genetic and environmental factors important for these disorders. We have been focused on the mouse model NZM2328 for SLE. This model was characterized by our laboratory and was used to identify genetic loci for susceptibility of SLE. A locus controlling nephritis and anti-dsDNA antibody production was identified. The disassociation of ANA and lupus nephritis was demonstrated in a congenic strain (NZM2328.C57L/J.c4).
The laboratory is focused on identification of the genes involved in the pathogenesis of SLE. In addition, autoantigens which are the target for nephritis in NZM2328.C57L/J.c4 are to be identified. Separate loci for acute and chronic glomerulonephritis (GN) were identified on the distal portion of chromosome 1. The genetic data were confirmed by the phenotypes of a congenic strain (NZM238.C574Jc1). Further mapping by the generation of intrachromosomal recombinant strains of the C1 congenic resulted in an informative strain NZM2328.R27, showing that acute GN need not progress to chronic GN and that acute GN and chronic GN are under separate genetic control.
Current efforts are to elucidate the genes controlling these phenotypes. In addition, the hypothesis that molecular mimicry initiates the initial autoimmune response, which diversifies to multiple autoantigen, resulting in end organ damage in suitable hosts is being tested. The role of MHC in this process in both mice and men is being investigated. In this regard, bacterial and viral agents sharing cross reactive T and B cell epitopes with human auto antigens are logical candidates for molecular mimics in this process.
In collaboration, the laboratory is interested in the mechanisms of autoantibody diversification and the role of T cells in the pathogenesis of glomerulonephritis. Recently we have focused our attention on the role of molecular mimicry to environmental antigens at the T cell level in the generation of lupus related autoantibodies. Our laboratory findings let us put forward a new hypothesis on the pathogenesis of SLE.