Murine models of lupus induced by hypomethylated T cells.

CD4+ T-cell DNA hypomethylation may contribute to the development of drug-induced and idiopathic human lupus. Inhibiting DNA methylation in mature CD4+ T cells causes autoreactivity specific to the major histocompatibility complex in vitro. The lupus-inducing drugs hydralazine and procainamide also inhibit T-cell DNA methylation and induce autoreactivity, and T cells from patients with active lupus have hypomethylated DNA and a similarly autoreactive T-cell subset. Further, T cells treated with DNA methylation inhibitors demethylate the same sequences that demethylate in T cells from patients with active lupus. The pathological significance of the autoreactivity induced by inhibiting T-cell DNA methylation has been tested by treating murine T cells in vitro with drugs that modify DNA methylation, then injecting the cells into syngeneic female mice. Mice receiving CD4+ T cells demethylated by a variety of agents, including procainamide and hydralazine, develop a lupuslike disease. This chapter describes the protocols for inducing autoreactivity in murine T cells in vitro and using the cells to induce autoimmunity in vivo.