Multimerized T cell epitopes protect from experimental autoimmune diabetes by inducing dominant tolerance

doi:10.1073/pnas.0610423104

Multimerized T cell epitopes protect from experimental autoimmune diabetes by inducing dominant tolerance

*Unité 563, Centre de Physiopathologie de Toulouse Purpan, Institut National de la Santé et de la Recherche Médicale, F-31300 Toulouse, France;
^†Université Paul-Sabatier, F-31400 Toulouse, France; and
^‡Max-Delbrück Center for Molecular Medicine, 13125 Berlin, Germany

Edited by Jack L. Strominger, Harvard University, Cambridge, MA, and approved April 12, 2007 (received for review November 24, 2006)

Abstract

Immunotherapy by using multimerized self-peptides has demonstrated a clear protective effect on experimental models of autoimmune diseases. However, the mechanisms involved remain ill-defined. Here we have evaluated the therapeutic efficacy of multimerized self-peptides at the effector phase of autoimmune diabetes and examined their mechanisms of action. Diabetes was induced in rat insulin promoter-hemagglutinin (HA) mice expressing HA in pancreatic β-cells by adoptive transfer of HA_110–119-specific T helper 1 cells. Complete protection was provided by low doses of the HA 4-mer consisting of four covalently linked linear HA_107–119 peptides. In vivo, the 4-mer appeared to act directly on the pathogenic HA-specific T helper 1 cells and indirectly by activation/recruitment of lymphocytes with regulatory properties so that mice became resistant to a second transfer of diabetogenic T cells. This effect was associated with a recruitment of Foxp3⁺ CD4 T cells around islets. Moreover, we show that dominant protection from autoimmunity was transferable by spleen cells, and that development of this regulatory population was crucially dependent on the lymphocytes from treated rat insulin promoter-HA mice. Thus, immunotherapy using multimerized epitopes emerges as a promising strategy in view of the current identification of self-epitopes that are major targets of the pathogenic CD4 T cell response in autoimmune diseases.

Footnotes

^§To whom correspondence may be addressed. E-mail: falk{at}mdc-berlin.de or rolandliblau{at}hotmail.com
Author contributions: E.P., L.T.M., O.R., K.F., and R.S.L. designed research; E.P., L.T.M., C.C., J.C., M.H., S.D., and E.B. performed research; M.H., O.R., and K.F. contributed new reagents/analytic tools; E.P., L.T.M., C.C., J.C., E.B., O.R., K.F., and R.S.L. analyzed data; and E.P., O.R., K.F., and R.S.L. wrote the paper.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission.
This article contains supporting information online at www.pnas.org/cgi/content/full/0610423104/DC1.
Abbreviations:

APC,

antigen-presenting cell;

GA,

glatiramer acetate;

RIP,

rat insulin promotor;

T1D,

type 1 diabetes;

TCR,

T cell receptor;

TH1,

T helper 1.