Abstract
We studied the role of the Transforming growth factor (TGF)-β signaling antagonist Smad7 in autoimmune central nervous system (CNS) inflammation by using specific antisense oligonucleotides (Smad7-as). Elevated Smad7 protein expression was found in the spinal cord of SJL/J mice and DA rats with experimental autoimmune encephalomyelitis (EAE) and in effector T cells upon antigen stimulation. Smad7-as specifically decreased Smad7 mRNA and protein in cell lines and in ex-vivo-treated primary mouse lymph node cells (LNC). LNC exposed to Smad7-as during secondary activation showed reduced proliferation and encephalitogenicity. After systemic administration, Smad7-as ameliorated clinical signs of active and adoptively transferred EAE, diminished CNS inflammation, and reduced Smad7 protein levels in the brain. Smad7-as was found to be incorporated by peritoneal macrophages as well as by cells of the liver, kidneys, and peripheral lymph nodes. Importantly, Smad7-as treatment was not toxic and did not increase extracellular matrix formation. Smad7 inhibition thus represents a novel systemic treatment strategy for autoimmune CNS inflammation, targeting TGF-β signaling without TGF-β-associated toxicity.
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