热焓驱动的转甲状腺素蛋白稳定化由 AG10 模拟物实现,该模拟物类似于一种天然存在的遗传变异体,可保护其免受转甲状腺素蛋白淀粉样变性。
Enthalpy-Driven Stabilization of Transthyretin by AG10 Mimics a Naturally Occurring Genetic Variant That Protects from Transthyretin Amyloidosis.
机构信息
Department of Pharmaceutics & Medicinal Chemistry , University of the Pacific , Stockton , California 95211 , United States.
Department of Pathology , Stanford University , Stanford , California 94305 , United States.
出版信息
J Med Chem. 2018 Sep 13;61(17):7862-7876. doi: 10.1021/acs.jmedchem.8b00817. Epub 2018 Aug 22.
Abstract
Transthyretin (TTR) amyloid cardiomyopathy (ATTR-CM) is a fatal disease with no available disease-modifying therapies. While pathogenic TTR mutations (TTRm) destabilize TTR tetramers, the T119M variant stabilizes TTRm and prevents disease. A comparison of potency for leading TTR stabilizers in clinic and structural features important for effective TTR stabilization is lacking. Here, we found that molecular interactions reflected in better binding enthalpy may be critical for development of TTR stabilizers with improved potency and selectivity. Our studies provide mechanistic insights into the unique binding mode of the TTR stabilizer, AG10, which could be attributed to mimicking the stabilizing T119M variant. Because of the lack of animal models for ATTR-CM, we developed an in vivo system in dogs which proved appropriate for assessing the pharmacokinetics-pharmacodynamics profile of TTR stabilizers. In addition to stabilizing TTR, we hypothesize that optimizing the binding enthalpy could have implications for designing therapeutic agents for other amyloid diseases.
摘要
转甲状腺素蛋白(TTR)淀粉样心肌病(ATTR-CM)是一种致命疾病,目前尚无可用的疾病修饰疗法。虽然致病性 TTR 突变(TTRm)会使 TTR 四聚体不稳定,但 T119M 变体可稳定 TTRm 并预防疾病。缺乏对临床中主要 TTR 稳定剂的效力比较和对有效 TTR 稳定至关重要的结构特征的比较。在这里,我们发现分子相互作用反映在更好的结合焓中可能对开发具有更高效力和选择性的 TTR 稳定剂至关重要。我们的研究为 TTR 稳定剂 AG10 的独特结合模式提供了机制见解,这可能归因于模拟稳定的 T119M 变体。由于缺乏 ATTR-CM 的动物模型,我们在犬中开发了一种体内系统,该系统被证明适合评估 TTR 稳定剂的药代动力学-药效学特征。除了稳定 TTR 之外,我们假设优化结合焓可能对设计其他淀粉样变性疾病的治疗剂具有意义。
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