Recent studies in experimental autoimmune encephalomyelitis as a model for multiple sclerosis (MS) have demonstrated limited heterogeneity in T-cell antigen receptors (TCR) specific for myelin basic protein (MBP). To investigate restricted j3-chain variable-region (Vp) gene usage in humans, we analyzed TCR gene rearrangements in two lines and 34 MBP-specific T-cell clones that were isolated from five MS patients and two healthy subjects. The T cells were characterized for their specificity to MBP epitopes and HLA-restricting molecules. We demonstrate here that MBP-specific T-cell clones from these different MS patients and healthy individuals, in contrast to T cells from rodents, display a more diverse (7) and Lewis rats (9). These studies raised the possibility of limited TCR heterogeneity by T cells mediating the autoimmune disease in humans and the possible immune intervention by monoclonal antibodies to TCR elements as an approach to therapy. We therefore investigated the TCR (3-chain variable-region (Vp) genes associated with the reactivity of MBP-specific T-cell clones in humans, both as possible pathogenic T cells in MS and as a prototypic T-cell-mediated response to a system-specific human selfantigen. Here, we present an analysis of Va gene usage by long-term lines and by 34 clones specific to MBP, which were isolated from five MS patients, and we present results suggesting a TCR heterogeneity among MBP-sp'ecific T cells from different individuals but a limited Vp gene usage among MBP-specific T cells of the same individual.
In order to explore the T-cell repertoire to myelin basic protein (BP) of both multiple sclerosis (MS) patients and healthy subjects (HS), we raised BP reactive T-cell lines from blood mononuclear cells of eight MS patients and five HS. These lines were triggered in vitro by human BP. When analyzing their patterns of recognition of human BP versus heterologous BP, we could observe differences between healthy subjects and MS patients. Whereas T-cell lines from healthy subjects developed a response to heterologous BP, which was in most cases equal or higher than that elicited by human BP, T-cell lines from most MS patients displayed a low response, or no response at all, to one or several of the heterologous BP tested. A low response to bovine BP was only observed in active cases, whereas decreased responses to rat and/or monkey BP were observed both during remission and during active disease. This may indicate that T-cell repertoire to BP in MS patients differs from that of healthy subjects. BP-reactive T-cell clones were obtained by limiting dilution from two healthy subject lines. Their pattern of response to heterologous BP as compared to human BP suggest that T-cells from the same individual can recognize different BP epitopes.
In highly purified blood-monocyte-derived macrophages collected from patients with leprosy and from healthy individuals and cultured in vitro with mycobacterial antigens such as Mycobacterium bovis BCG or Mycobacterium leprae, we nonspecifically induced the synthesis of interleukin-1. Normally, all supernatants from cultured macrophages of all subjects tested produced similar amounts of interleukin-1. However, only in patients with lepromatous leprosy, M. leprae, but not BCG, induced high-level synthesis of prostaglandin E2, which acted as a suppressor factor in the mouse thymocyte proliferative assay used to measure the interleukin-1 content of the supernatants. Normal interleukin-1 content of those supernatants was demonstrated by blocking the prostaglandin E2 synthesis by the addition of indomethacin to the medium throughout the experimental procedure. We also tested the efficiency of a combination of BCG and M. leprae in reducing the prostaglandin E2 synthesis, but with the methodology used, we did not observe any beneficial effect of such a combination. These results demonstrate the possible role of M. leprae in the induction of at least one of the suppressive monokines and are additional arguments for the involvement of macrophages in the suppression of the specific cell-mediated immunity to M. leprae observed in lepromatous leprosy.
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