Meir Medical Center, Pulmonary Department, Kfar Saba, 4428164, Israel; Tel Aviv University Sackler Faculty of Medicine, Tel Aviv, 6997801, Israel.
Avalyn Pharma, 701 Pike Street, Suite 1500, Seattle, WA, 98101, United States.
Pulm Pharmacol Ther. 2020 Aug;63:101933. doi: 10.1016/j.pupt.2020.101933. Epub 2020 Aug 1.
Oral nintedanib is marketed for the treatment of idiopathic pulmonary fibrosis (IPF). While effective slowing fibrosis progression, as an oral medicine nintedanib is limited. To reduce side effects and maximize efficacy, nintedanib was reformulated as a solution for nebulization and inhaled administration. To predict effectiveness treating IPF, the nintedanib pharmacokinetic/pharmacodynamic relationship was dissected. Pharmacokinetic analysis indicated oral-delivered nintedanib plasma exposure and lung tissue partitioning were not dose-proportional and resulting lung levels were substantially higher than blood. Although initial-oral absorbed nintedanib efficiently partitioned into the lung, only a quickly eliminated fraction appeared available to epithelial lining fluid (ELF). Because IPF disease appears to initiate and progress near the epithelial surface, this observation suggests short duration nintedanib exposure (oral portion efficiently partitioned to ELF) is sufficient for IPF efficacy. To test this hypothesis, exposure duration required for nintedanib activity was explored. In vitro, IPF-cellular matrix (IPF-CM) increased primary normal human fibroblast (nHLF) aggregate size and reduced nHLF cell count. IPF-CM also increased nHLF ACTA2 and COL1A expression. Whether short duration (inhalation pharmacokinetic mimic) or continuous exposure (oral pharmacokinetic mimic), nintedanib (1-100 nM) reversed these effects. In vivo, intubated silica produced a strong pulmonary fibrotic response. Once-daily (QD) 0.021, 0.21 and 2.1 mg/kg intranasal (IN; short duration inhaled exposure) and twice-daily (BID) 30 mg/kg oral (PO; long duration oral exposure) showed that at equivalent-delivered lung exposure, QD short duration inhaled nintedanib (0.21 mg/kg IN vs. 30 mg/kg PO) exhibited equivalent-to-superior activity as BID oral (reduced silica-induced elastance, alpha-smooth muscle actin, interleukin-1 beta (IL-1β) and soluble collagen). Comparatively, the increased inhaled lung dose (2.1 mg/kg IN vs. 30 mg/kg PO) exhibited increased effect by further reducing silica-induced elastance, IL-1β and soluble collagen. Neither oral nor inhaled nintedanib reduced silica-induced parenchymal collagen. Both QD inhaled and BID oral nintedanib reduced silica-induced bronchoalveolar lavage fluid macrophage and neutrophil counts with oral achieving significance. In summary, pharmacokinetic elements important for nintedanib activity can be delivered using infrequent, small inhaled doses to achieve oral equivalent-to-superior pulmonary activity.
尼达尼布口服制剂用于治疗特发性肺纤维化(IPF)。虽然尼达尼布能有效减缓纤维化进展,但作为一种口服药物,其应用受到限制。为了降低副作用并最大限度地提高疗效,尼达尼布被重新制成雾化吸入制剂。为了预测尼达尼布治疗 IPF 的疗效,对其药代动力学/药效学关系进行了剖析。药代动力学分析表明,口服尼达尼布的血浆暴露量和肺组织分配量与剂量不成比例,导致肺内水平远高于血液。虽然初始口服吸收的尼达尼布能有效地分配到肺部,但只有迅速消除的部分可用于上皮衬里液(ELF)。由于 IPF 疾病似乎起始并在表面上皮附近进展,这一观察结果表明,尼达尼布暴露的短时间(口服部分有效地分配到 ELF)足以发挥 IPF 的疗效。为了验证这一假设,研究了尼达尼布发挥作用所需的暴露时间。在体外,特发性肺纤维化细胞外基质(IPF-CM)增加了原代正常人成纤维细胞(nHLF)聚集体的大小,并减少了 nHLF 细胞计数。IPF-CM 还增加了 nHLF 的 ACTA2 和 COL1A 表达。无论是短时间(雾化吸入药代动力学模拟)还是连续暴露(口服药代动力学模拟),尼达尼布(1-100 nM)均可逆转这些效应。在体内,气管内注射二氧化硅可引起强烈的肺纤维化反应。每日一次(QD)0.021、0.21 和 2.1 mg/kg 经鼻(IN;短时间吸入暴露)和每日两次(BID)30 mg/kg 口服(PO;长时间口服暴露)表明,在等效肺暴露量下,QD 短时间吸入尼达尼布(0.21 mg/kg IN 与 30 mg/kg PO)的疗效与 BID 口服(降低二氧化硅诱导的弹性,α-平滑肌肌动蛋白、白细胞介素-1β(IL-1β)和可溶性胶原蛋白)相当或优于后者。相比之下,增加吸入肺剂量(2.1 mg/kg IN 与 30 mg/kg PO)通过进一步降低二氧化硅诱导的弹性、IL-1β 和可溶性胶原蛋白,可增强疗效。口服和吸入尼达尼布均未降低二氧化硅诱导的实质胶原。QD 吸入和 BID 口服尼达尼布均可降低二氧化硅诱导的支气管肺泡灌洗液中巨噬细胞和中性粒细胞计数,其中口服组具有统计学意义。总之,尼达尼布活性所需的药代动力学因素可通过使用频率较低的小剂量吸入来实现,从而达到口服等效或优于口服的肺部疗效。
