The overall goal of this project is to examine immunological mechanisms which may involved in the pathogenesis of autoimmune diseases such as multiple sclerosis (MS) and chronic Lyme disease of the nervous system. Specifically, the antigen recognition of T lymphocytes from patients with disease such as MS and chronic Lyme disease are examined with respect to the specific antigens (foreign and autoantigens) recognized and their functional phenotype, i.e., whether they secrete pro- inflammatory cytokines. Furthermore, based on our studies, we are designing novel immunotherapies for MS and started testing one of these, i.e. the use of altered peptide ligands (APL)in MS patients in a phase II clinical trial. The latter trial is currently ongoing at NIB, NINDS, NIH. Seven patients have been enrolled, and we are studying clinical parameters, measure disease activity by magnetic resonance imaging, and perform multiple immunological studies in order to assess the mechanism of action of APL and deepen our understanding of the immune pathogenesis of MS. Another important project currently being pursued in our laboratory addresses the question which foreign antigens, e.g., viruses or bacteria, may trigger the initiation or exacerbations of disease via a mechanism referred to as molecular mimicry. This concept refers to cross-recognition between autoantigens, e.g., derived from the myelin sheath, and antigens derived from foreign agents. For this purpose, we currently employ a novel methodology called combinatorial peptide libraries in the positional scanning format (ps-SCL) together with bioinformatic approaches to identify the entire spectrum of stimulatory ligands for autoreactive T cell clones derived from MS patients. In brief, we test T cell clones with ps-SCL, which represent highly complex mixtures of trillions of peptides, and deduce stimulatory peptide sequences from these assays before we screen the data bases of all known protein sequences for potential stimulatory peptides. This technique has allowed us to identify a number of Borrelia burgdorferi peptides, the causative agent of Lyme disease, and from autoantigens, for a clone that had been isolated from the cerebrospinal fluid of a patient suffering from chronic CNS Lyme disease. Thus, we could show for the first time that one can identify the target specificity for an organ-infiltrating T cell clone that had been expanded by a crude lysate of the whole bacterium. We are currently in the process of developing this methodology further and anticipate that the combination of ps-SCL and biometric data analysis will lead to advances in the identification of target antigens for autoimmune diseases, but also for tumor-specific lymphocytes or T cells that are involved in infectious disease. As an example for the latter, our data for organ-infiltrating T cell in chronic nervous system Lyme disease already suggests that the immune response in the chronic stage of the disease is directed against tissue autoantigens and that this process is thus very similar to an autoimmune disease. - Multiple Sclerosis, Autoimmunity, T cell,

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Intramural Research (Z01)
Project #
1Z01NS002205-25
Application #
6432882
Study Section
(NIB)
Project Start
Project End
Budget Start
Budget End
Support Year
25
Fiscal Year
2000
Total Cost
Indirect Cost
City
State
Country
United States
Zip Code
Lunemann, Jan D; Kamradt, Thomas; Martin, Roland et al. (2007) Epstein-barr virus: environmental trigger of multiple sclerosis? J Virol 81:6777-84
Martin, Roland; Bielekova, Bibiana; Hohlfeld, Reinhard et al. (2006) Biomarkers in multiple sclerosis. Dis Markers 22:183-5
Sospedra, Mireia; Muraro, Paolo A; Stefanova, Irena et al. (2006) Redundancy in antigen-presenting function of the HLA-DR and -DQ molecules in the multiple sclerosis-associated HLA-DR2 haplotype. J Immunol 176:1951-61
Cassiani-Ingoni, Riccardo; Cabral, Erik S; Lunemann, Jan D et al. (2006) Borrelia burgdorferi Induces TLR1 and TLR2 in human microglia and peripheral blood monocytes but differentially regulates HLA-class II expression. J Neuropathol Exp Neurol 65:540-8
Cassiani-Ingoni, Riccardo; Coksaygan, Turhan; Xue, Haipeng et al. (2006) Cytoplasmic translocation of Olig2 in adult glial progenitors marks the generation of reactive astrocytes following autoimmune inflammation. Exp Neurol 201:349-58
Bielekova, Bibiana; Catalfamo, Marta; Reichert-Scrivner, Susan et al. (2006) Regulatory CD56(bright) natural killer cells mediate immunomodulatory effects of IL-2Ralpha-targeted therapy (daclizumab) in multiple sclerosis. Proc Natl Acad Sci U S A 103:5941-6
Muraro, Paolo A; Cassiani-Ingoni, Riccardo; Chung, Katherine et al. (2006) Clonotypic analysis of cerebrospinal fluid T cells during disease exacerbation and remission in a patient with multiple sclerosis. J Neuroimmunol 171:177-83
Sospedra, Mireia; Martin, Roland (2006) Molecular mimicry in multiple sclerosis. Autoimmunity 39:3-8
Lunemann, Jan D; Edwards, Nancy; Muraro, Paolo A et al. (2006) Increased frequency and broadened specificity of latent EBV nuclear antigen-1-specific T cells in multiple sclerosis. Brain 129:1493-506
Muraro, Paolo A; Douek, Daniel C; Packer, Amy et al. (2005) Thymic output generates a new and diverse TCR repertoire after autologous stem cell transplantation in multiple sclerosis patients. J Exp Med 201:805-16

Showing the most recent 10 out of 58 publications