Objective: Monoclonal antibodies (MAb) directed against the T cell surface molecule CD5 are able to provide accessory stimulatory signals to resting T cells. The potential role of CD5 as an immunoregulatory molecule in inflammatory synovitis was examined.
Methods: Synovial fluid and peripheral blood T cells of patients with active rheumatoid arthritis (RA) were purified and stimulated with interleukin-2 (IL-2), and the effect of MAb directed against CD5 on IL-2 responsiveness was examined.
Results: IL-2-induced proliferation of synovial fluid T cells was strongly inhibited by anti-CD5 MAb, but not by anti-CD28 or anti-CD3 MAb. In RA peripheral blood T cells, MAb directed against CD5, CD3, and CD28 induced IL-2-dependent T cell growth, similar to findings in healthy controls. The difference in activity of anti-CD5 MAb on synovial fluid T cells compared with peripheral blood T cells was not due to different surface expression of CD5.
Conclusion: Anti-CD5 has an inhibitory effect on in vivo-activated synovial fluid T cells. The disease-ameliorative effects of anti-CD5 immunotoxin treatment of RA may be partly due to "switching-off" of T cell activation in the joints.