Edwards Wilson, Fung-Leung Wai-Ping, Huang Chichi, Chi Ellen, Wu Nancy, Liu Yi, Maher Michael P, Bonesteel Rachelle, Connor Judith, Fellows Ross, Garcia Elena, Lee Jerry, Lu Lu, Ngo Karen, Scott Brian, Zhou Hong, Swanson Ronald V, Wickenden Alan D
Janssen Research and Development, LLC, San Diego, California 92121.
Janssen Research and Development, LLC, San Diego, California 92121.
J Biol Chem. 2014 Aug 15;289(33):22704-22714. doi: 10.1074/jbc.M114.568642. Epub 2014 Jun 17.
Ion channels are an attractive class of drug targets, but progress in developing inhibitors for therapeutic use has been limited largely due to challenges in identifying subtype selective small molecules. Animal venoms provide an alternative source of ion channel modulators, and the venoms of several species, such as scorpions, spiders and snails, are known to be rich sources of ion channel modulating peptides. Importantly, these peptides often bind to hyper-variable extracellular loops, creating the potential for subtype selectivity rarely achieved with small molecules. We have engineered scorpion venom peptides and incorporated them in fusion proteins to generate highly potent and selective Kv1.3 inhibitors with long in vivo half-lives. Kv1.3 has been reported to play a role in human T cell activation, and therefore, these Kv1.3 inhibitor fusion proteins may have potential for the treatment of autoimmune diseases. Our results support an emerging approach to generating subtype selective therapeutic ion channel inhibitors.
离子通道是一类颇具吸引力的药物靶点,但由于在鉴定亚型选择性小分子方面存在挑战,用于治疗用途的抑制剂开发进展一直有限。动物毒液提供了离子通道调节剂的另一种来源,已知几种物种的毒液,如蝎子、蜘蛛和蜗牛的毒液,是离子通道调节肽的丰富来源。重要的是,这些肽通常与高度可变的细胞外环结合,产生了小分子很少能实现的亚型选择性潜力。我们对蝎子毒液肽进行了工程改造,并将其整合到融合蛋白中,以生成具有长体内半衰期的高效且选择性的Kv1.3抑制剂。据报道,Kv1.3在人类T细胞激活中起作用,因此,这些Kv1.3抑制剂融合蛋白可能具有治疗自身免疫性疾病的潜力。我们的结果支持了一种生成亚型选择性治疗性离子通道抑制剂的新兴方法。
