Results of a phase I clinical trial of a T-cell receptor peptide vaccine in patients with multiple sclerosis. I. Analysis of T-cell receptor utilization in CSF cell populations.

To identify a panel of multiple sclerosis patients (MS) for a phase I clinical trial of a T-cell receptor (TCR) peptide vaccine we characterized the T-cell populations present in the cerebrospinal fluids (CSF) of a large group of patients with respect to surface phenotype and state of activation, TCR beta chain utilization, features of the CDR3 junctional region, the extent of clonality and persistence of selected clonotypes over time. These CSF cell populations consist of approximately 60% CD4+ T-cells, half of which bear IL-2 receptors, indicating these activated T-cells may be part of the pathogenic process in MS. When these activated CD4+ T-cells were selectively expanded in IL-2/IL-4 supplemented cultures, an over-representation of several TCRV beta families was noted in 39/47 patients, the most frequent being V beta 6.5, V beta 6.7, V beta 2, V beta 5 and V beta 4. Biased expression of various members of the V beta 6 family was seen in 21 of this group of 39 patients. Clonal analysis of TCR beta 6 CDR3 sequences, revealed two notable features: clonal dominance and clonal persistence. CSF cells from two-thirds of MS patients contained a dominant clone comprising 50% or more of sequences and the same patient-specific clone could be shown to persist for up to 18 months. This clonal prevalence and over representation of V beta 6+TCR raises the possibility that immunization with a V beta 6 peptide vaccine may produce a regulatory immune response leading to a clinical benefit.