| |
[摘要]:Skeletal muscle disorder, inclusion-body myositis (IBM) has been known for accumulation of amyloid characteristic proteins in muscle. To understand the biophysical basis of IBM, the interaction of amyloid fibrils with skeletal myoblast cells (SMC) has been studied in vitro. Synthetic insulin fibrils and A beta(25-35) fibrils were used for this investigation. From the saturation binding analysis, the calculated dissociation constant (K-d) for insulin fibril and A beta(25-35) fibrils were 69.37 +/- 11.17 nM and 115.60 +/- 12.17 nM, respectively. The fibrillar insulin comparatively has higher affinity binding to SMC than A beta fibrils. The competitive binding studies with native insulin showed that the amount of bound insulin fibril was significantly decreased due to displacement of native insulin. However, the presence of native insulin is not altered the binding of beta-amyloid fibril. The cytotoxicity of insulin amyloid intermediates was measured. The pre-fibrillar intermediates of insulin showed significant toxicity (35%) as compared to matured fibrils. Myoblast treated with beta-amyloid fibrils showed more oxidative damage than the insulin fibril. Cell differentiating action of amyloidic insulin was assayed by creatine kinase activity. The insulin fibril treated cells differentiated more Slowly Compared to native insulin. However, beta-amyloid fibrils do not show cell differentiation property. These findings reinforce the hypothesis that accumulation of amyloid related proteins is significant for the pathological events that could lead to muscle degeneration and weakness in IBM. (C) 2008 Elsevier Inc. All rights reserved. |
|
