Serum from patients with Idiopathic inflammatory myopathy induces skeletal muscle weakness

Abstract

AbstractIdiopathic inflammatory myopathies (IIM) are a group of systemic autoimmune inflammatory disorders that primarily affect striated muscles leading to weakness and accelerated fatigue. The disseminated muscle phenotype points to systemic humoral factors as mediators of the disease. Autoantibodies are important biomarkers for disease classification; it is not known if they play a direct role in IIM disease development. This study aims to investigate if IIM patient serum or isolated IgG could directly impair contractile function in muscle.Isolated flexor digitorum brevis (FDB) muscles from healthy mice were exposed to serum (10-50%) from healthy controls or patients with recent onset IIM. Some muscles were exposed to isolated total IgG (50 or 150μg/ml) from patients with IIM. Muscle force in whole muscles was measured before and after exposure to sera or IgG. Muscle force and intracellular [Ca2+] in single muscle fibers were measured after exposure to serum.FDB muscles exposed to serum from patients with IIM displayed a marked reduction in force production in both 10% and 50% serum. Moreover, single myofibers dissected from FDB muscles exposed to IIM sera displayed lower force but unaffected Ca2+release during contractions, which indicates myofibrillar dysfunction, but not intracellular Ca2+release, as the cause to weakness. FDB muscles exposed to total IgG from IIM patients did not display any reduction in muscle force.In conclusion IIM patient serum, but not total IgG, impairs force production in skeletal muscle fibers. As the experiments were performed in isolated muscle, our results cannot be explained by infiltrating immune cells, impaired neuronal or vascular functions. This suggests that humoral factors play a direct role in the pathogenesis of muscle weakness in recent onset IIM.