Department of Nuclear Medicine, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, 1095 Jiefang Avenue, Wuhan 430030, China.
Department of Radiology and Imaging Sciences, Emory University, Atlanta, Georgia 30322, United States.
Mol Pharm. 2024 Oct 7;21(10):5171-5181. doi: 10.1021/acs.molpharmaceut.4c00571. Epub 2024 Aug 26.
Idiopathic pulmonary fibrosis (IPF) is a fatal disease characterized by unpredictable progression and limited therapeutic options. Current diagnosis relies on high resolution computed tomography (HRCT), which may not adequately capture early signs of deterioration. The enzyme autotaxin (ATX) emerges as a prominently expressed extracellular secretory enzyme in the lungs of IPF patients. The objective of this study was to evaluate the effectiveness of F-labeled ATX-targeted tracer [F]ATX-1905, in comparison with [F]FDG, for early fibrosis diagnosis, disease evolution monitoring, and treatment efficacy assessment in bleomycin-induced pulmonary fibrosis (BPF) models. To assess treatment efficacy, mice were treated with two commonly used drugs for IPF, pirfenidone or nintedanib, from Day 9 to Day 23 postbleomycin administration. Lung tissue assessments encompassed inflammation severity via H&E staining, and Ashcroft scoring via Masson staining, alongside quantification of ATX expression through ELISA. Positron emission tomography (PET) imaging employing [F]FDG and [F]ATX-1905 tracked disease progression pre- and post-treatment. The extent of pulmonary fibrosis corresponded to changes in ATX expression levels in the BPF mouse model. Notably, [F]ATX-1905 exhibited elevated uptake in BPF lungs during the progression of the disease, particularly evident at the early stage (Day 9). This uptake was inhibited by an ATX inhibitor, PF-8380, underscoring the specificity of the radiotracer. Conversely, [F]FDG uptake, peaking at Day 15, decreased subsequently, likely reflective of diminished inflammation. A 2-week treatment regimen using either pirfenidone or nintedanib resulted in notable reductions of ATX expression levels and fibrosis degrees within lung tissues, based on ELISA and Masson staining, as evidenced by PET imaging with [F]ATX-1905. [F]FDG uptake also decreased following the treatment period. Additionally, PET/CT imaging extended to a nonhuman primate (NHP) BPF model. The uptake of [F]ATX-1905 (SUV = 2.2) was significantly higher than that of [F]FDG (SUV = 0.7) in fibrotic lung tissue. Using our novel ATX-specific radiotracer [F]ATX-1905 and PET/CT imaging, we demonstrated excellent ability in early fibrosis detection, disease monitoring, and treatment assessment within lungs of the BPF mouse models. [F]ATX-1905 displayed remarkable specificity for ATX expression and high sensitivity for ATX alterations, suggesting its potential for monitoring varying ATX expression in lungs of IPF patients.
特发性肺纤维化 (IPF) 是一种致命疾病,其特点是进展不可预测且治疗选择有限。目前的诊断依赖于高分辨率计算机断层扫描 (HRCT),但可能无法充分捕捉到病情恶化的早期迹象。酶自分泌酶 (ATX) 是 IPF 患者肺部表达明显的细胞外分泌酶。本研究的目的是评估 F 标记的 ATX 靶向示踪剂 [F]ATX-1905 的有效性,与 [F]FDG 相比,用于早期纤维化诊断、疾病进展监测和博来霉素诱导的肺纤维化 (BPF) 模型中的治疗效果评估。为了评估治疗效果,从博来霉素给药后第 9 天到第 23 天,用两种常用于 IPF 的药物,吡非尼酮或尼达尼布治疗小鼠。肺组织评估包括通过 H&E 染色评估炎症严重程度,通过 Masson 染色评估 Ashcroft 评分,以及通过 ELISA 定量 ATX 表达。使用 [F]FDG 和 [F]ATX-1905 进行正电子发射断层扫描 (PET) 成像,在治疗前后追踪疾病进展。在 BPF 小鼠模型中,肺纤维化的程度与 ATX 表达水平的变化相对应。值得注意的是,[F]ATX-1905 在疾病进展过程中在 BPF 肺部的摄取增加,特别是在早期阶段 (第 9 天)。这种摄取被 ATX 抑制剂 PF-8380 抑制,突出了示踪剂的特异性。相反,[F]FDG 的摄取在第 15 天达到峰值,随后降低,可能反映了炎症的减少。使用吡非尼酮或尼达尼布进行为期 2 周的治疗方案,根据 ELISA 和 Masson 染色,肺组织中 ATX 表达水平和纤维化程度显著降低,这一点通过 [F]ATX-1905 的 PET 成像得到证实。[F]FDG 的摄取在治疗期后也降低。此外,PET/CT 成像扩展到非人类灵长类动物 (NHP) BPF 模型。[F]ATX-1905(SUV=2.2)在纤维化肺组织中的摄取明显高于 [F]FDG(SUV=0.7)。使用我们的新型 ATX 特异性示踪剂 [F]ATX-1905 和 PET/CT 成像,我们在 BPF 小鼠模型的肺部中展示了出色的早期纤维化检测、疾病监测和治疗评估能力。[F]ATX-1905 对 ATX 表达具有显著的特异性和对 ATX 变化的高灵敏度,表明其具有监测 IPF 患者肺部不同 ATX 表达的潜力。
