Small chemical compounds
that block the kinase activity of myostatin type I receptor would also serve as myostatin inhibitors (13). Table 1 see more muscular dystrophies and myostatin inhibition. Development of Myostatin Inhibitors for Therapies against Muscular Dystrophy Phage display technology and antibody engineering have been used to Inhibitors,research,lifescience,medical develop myostatin-blocking antibodies. The biosafety and effectiveness of humanized myostatin antibodies, designated MYO-029, are being evaluated in phase I/II studies in the United States in 108 patients suffering from muscular dystrophy (3). Multiple myostatin-binding proteins, such as myostatin propeptide, follistatin and follistatin-related protein, have been characterized.
After cleavage of myostatin precursors, myostatin propeptide associates with mature myostatin in sera (14). Proteolytic cleavage of the propeptide at aspartate-76 by the BMP-1/TLD family of metalloproteinases is an important step for activation of the mature Inhibitors,research,lifescience,medical disulfide-bonded C-terminal myostatin dimer (2, 3). Mutation of the myostatin propeptide at the BMP-1/TLD cleavage site by replacing aspartate-76 with alanine (D76A) produces a better myostatin inhibitor than the wild-type propeptide Inhibitors,research,lifescience,medical in vitro and in vivo (9, 11). Although the activin type IIB receptor, ACVR2B, is characterized as a receptor for activins and nodal, it is the primary ligand-binding myostatin receptor that transmits myostatin signaling. A soluble form of ACVR2B has potent myostatin-inhibitory activity and causes dramatic increases in muscle mass (15). Only Inhibitors,research,lifescience,medical 2 weeks are required for the soluble form of ACVR2B to increase the muscle mass in mice by up to 60% (15). Since the soluble form of ACVR2B even augments muscle mass in myostatin-knockout mice,
it has been suggested that it also inhibits other ligands including activins Inhibitors,research,lifescience,medical and GDF11 that regulate skeletal muscle growth in addition to myostatin (15). Myostatin Inhibitor Derived from Follistatin Follistatin was originally identified as a single-chain polypeptide with a weak inhibitory activity toward follicle-stimulating hormone secretion by anterior pituitary cells. Later, follistatin was found to be an activin-binding protein (1). Gene crotamiton knockout analyses revealed that follistatin gene ablation causes multiple effects, including skeletal and skin abnormalities, suggesting that follistatin may have additional functions other than activin inhibition (1). Follistatin and follistatin-related gene, FLRG, were shown to bind to myostatin and inhibit its activity (1, 2, 15, 16). Similar to myostatin, activins belong to the TGF-β superfamily and have pleiotrophic effects on numerous tissues.