Bone marrow-derived dendritic cells from experimental allergic encephalomyelitis induce immune tolerance to EAE in Lewis rats.

We have previously shown that dendritic cells (DC), upon being pulsed in vitro with encephalitogenic myelin basic protein peptide 68-86 (MBP 68-86) and injected subcutaneously (s.c.) back to healthy Lewis rats, transfer immune tolerance to experimental allergic encephalomyelitis (EAE) induced by immunization with MBP 68-86 and Freund's complete adjuvant (FCA). We here assumed that DC become pulsed in EAE rats, and that expansion in vitro of such 'in vivo pulsed EAE-DC' might also have the capacity to induce immune tolerance to EAE, thereby eliminating the need for in vitro pulsing of DC with autoantigens which are still unknown in many autoimmune diseases in the human. In the present study, EAE-DC were generated from bone marrow of Lewis rats, with EAE induced with MBP 68-86 + FCA, and expanded in vitro by culture with GM-CSF and IL-4. In comparison with DC from normal rats, EAE-DC exhibited higher viability in the absence of growth factors, and presented specific antigen to naïve T cells in vitro. The DC derived from both EAE and healthy rats stimulated strong proliferation in an antigen-independent manner, lasting for 4 weeks after DC were s.c. injected into healthy rats. During this time, injection of EAE-DC did not induce clinical EAE. However, when these rats were immunized with MBP 68-86 + FCA, subsequent EAE was dramatically suppressed, and was associated with increased IFN-gamma expression, nitric oxide production, gradually reduced proliferation and cell apoptosis, compared with PBS-injected control EAE rats. LPS-treated DC did not induce tolerance, suggesting that the tolerance is mediated by an immature stage of DC. These observations support the hypothesis that EAE-DC can transfer immune tolerance to EAE, thereby omitting the step of characterizing specific autoantigen. Omitting the step of loading DC with antigen not only eliminates the extremely complex procedure of defining pathogenically-relevant autoantigens, but also avoids the risk of inducing immunogenicity of DC in the treatment of autoimmune diseases.