摘要:BBT-877,一种治疗特发性肺纤维化的强效自taxin抑制剂

Gwanghee Lee, Sang-Uk Kang, Jeong-Hyun Ryou, Jongwon Lim, Yong-Hee Lee
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引用次数: 7

摘要

特发性肺纤维化(IPF)是一种进行性、不可逆和致命的肺部疾病,医疗需求未得到满足。Autotaxin (ATX)是一种参与溶血磷脂酸(LPA)生成的细胞外酶。临床前和临床数据表明,ATX - LPA - LPA受体(LPAR)轴在IPF的发病和进展中起关键作用。BBT-877是一种口服的抗ATX小分子抑制剂。在人血浆离体酶促实验中,BBT-877的IC50为6.5 - 6.9 nM (LPA 18:2), GLPG1690的IC50为75 - 132 nM。为了确定BBT-877的体内抗纤维化效果,在第0天小鼠鼻内给药博来霉素,在第7天至第21天每天口服两次。与载体治疗组相比,BBT-877治疗组的体重减轻、肺重量、Ashcroft评分以及胶原蛋白含量均显著降低,显示出抗纤维化疗效。在80名健康志愿者的1期临床试验中,他们给药50 - 800毫克(SAD)、200 - 800毫克QD或100 - 200毫克BID,持续两周(MAD),只发现轻微的不良事件。药代动力学分析显示,全身暴露剂量正比增加,消除半衰期为12小时。给药400mg BBT-877后24小时血浆LPA水平下降维持在80%以上。综上所述,非临床数据表明,BBT-877是一种有效的、选择性的、可能是同类最佳的ATX抑制剂。1期临床数据表明,BBT-877是一种安全且耐受性良好的药物,具有良好的药代动力学-药效学特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Late Breaking Abstract - BBT-877, a Potent Autotaxin Inhibitor in Clinical Development to Treat Idiopathic Pulmonary Fibrosis
Idiopathic Pulmonary Fibrosis (IPF) is a progressive, irreversible and fatal lung disease with unmet medical needs. Autotaxin (ATX) is an extracellular enzyme involved in the generation of lysophosphatidic acid (LPA). Preclinical and clinical data have suggested the ATX – LPA – LPA receptor (LPAR) axis plays a pivotal role in the pathogenesis and the progression of IPF. BBT-877 is an orally available small molecule inhibitor against ATX. In ex vivo enzymatic assays using human plasma, IC50 of BBT-877 was measured 6.5 – 6.9 nM (LPA 18:2) whereas that of GLPG1690 was measured 75 – 132 nM. To determine in vivo anti-fibrotic efficacy of BBT-877, bleomycin was intranasally administrated in mice at day 0, and BBT-877 was administrated orally twice a day from day 7 to 21. The BBT-877 treatment showed anti-fibrotic efficacy as revealed by significantly reduced body weight loss, lung weight and Ashcroft score as well as collagen content compared to the vehicle-treated group. During phase 1 clinical trial with 80 healthy volunteers, in which 50 – 800 mg (SAD) and 200 – 800 mg QD or 100 – 200 mg BID for two weeks (MAD) doses were administrated, only mild adverse events were noted. Pharmacokinetic analysis revealed the dose-proportional increase in systemic exposure with elimination half-life of 12hr. The decrease of plasma LPA level was maintained at 80% or higher for 24hr when 400 mg BBT-877 was administrated. Taken together, nonclinical data suggest BBT-877 is a potent, selective, and potentially best-in-class ATX inhibitor. Phase 1 clinical data demonstrate BBT-877 is a safe and well-tolerated drug with excellent pharmacokinetic-pharmacodynamic profiles.
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