Infectious Th1 and Th2 autoimmunity in diabetes-prone mice

Abstract

In the non-obese diabetic (NOD) mouse, a Th1-biased autoimmune response arises spontaneously against glutamic acid decarboxylase, concurrent with the onset of insulitis. Subsequently, Th1-type auroreactivity spreads intra- and intermolecularly to other β-cell autoantigens (βCAAs), suggesting that a spontaneous Th1 cascade underlies disease progression. Induction of Th2 immunity to a single βCAA results in the spreading of Th2-type T-cell and humoral responses to other βCAAs in an infectious manner. Thus, both Th1 and Th2 autoimmunity can evolve in amplificatory cascades defined by site-specific, but not antigen-specific, positive feedback circuits. Despite the continued presence of Th1 auroimmunity, the induction of Th2 spreading is associated with active tolerance to PCMs and reduced disease incidence. With disease progression there is an attenuation of βCAA-inducible Th2 spreading, presumably because of a reduced availability of uncommitted βCAA-reactive precursor T cells. We discuss the implications of these findings for the rational design of antigen-based immunotherapeutics.