Cash Jennifer N, Rejon Carlis A, McPherron Alexandra C, Bernard Daniel J, Thompson Thomas B
Department of Molecular Genetics, Biochemistry, and Microbiology, University of Cincinnati, Cincinnati, OH 45267, USA.
EMBO J. 2009 Sep 2;28(17):2662-76. doi: 10.1038/emboj.2009.205. Epub 2009 Jul 30.
Myostatin is a member of the transforming growth factor-beta (TGF-beta) family and a strong negative regulator of muscle growth. Here, we present the crystal structure of myostatin in complex with the antagonist follistatin 288 (Fst288). We find that the prehelix region of myostatin very closely resembles that of TGF-beta class members and that this region alone can be swapped into activin A to confer signalling through the non-canonical type I receptor Alk5. Furthermore, the N-terminal domain of Fst288 undergoes conformational rearrangements to bind myostatin and likely acts as a site of specificity for the antagonist. In addition, a unique continuous electropositive surface is created when myostatin binds Fst288, which significantly increases the affinity for heparin. This translates into stronger interactions with the cell surface and enhanced myostatin degradation in the presence of either Fst288 or Fst315. Overall, we have identified several characteristics unique to myostatin that will be paramount to the rational design of myostatin inhibitors that could be used in the treatment of muscle-wasting disorders.
肌生成抑制素是转化生长因子-β(TGF-β)家族的成员,也是肌肉生长的强负调控因子。在此,我们展示了肌生成抑制素与拮抗剂卵泡抑素288(Fst288)复合物的晶体结构。我们发现,肌生成抑制素的前螺旋区域与TGF-β类成员的前螺旋区域非常相似,并且仅该区域就可以替换激活素A中的相应区域,从而通过非经典I型受体Alk5传导信号。此外,Fst288的N端结构域会发生构象重排以结合肌生成抑制素,并且可能作为拮抗剂的特异性位点发挥作用。此外,肌生成抑制素与Fst288结合时会形成一个独特的连续正电表面,这显著增加了对肝素的亲和力。这转化为与细胞表面更强的相互作用,并在存在Fst288或Fst315的情况下增强了肌生成抑制素的降解。总体而言,我们已经确定了肌生成抑制素的几个独特特征,这些特征对于合理设计可用于治疗肌肉萎缩症的肌生成抑制素抑制剂至关重要。