Light up heart-type fatty acid binding protein (FABP3) with a novel fluorine-18 labelled selective FABP3 ligand.

IF 3.1 3区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING EJNMMI Research Pub Date : 2024-11-14 DOI:10.1186/s13550-024-01175-6

Jun Toyohara, Taichi Komoda, Tetsuro Tago, Masahiko Ito, Hiroshi Yoshino

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Abstract

Background: Heart-type fatty acid binding proteins (FABP3) constitute a family of lipid chaperone proteins. They are found in the cytosol and enhance cellular fatty acid solubilisation, transport, and metabolism. FABP3 is highly expressed in the myocardium and is released from myocytes during myocardial damage. As FABP3 content in the myocardium is closely related to the metabolic state of fatty acids, we hypothesised that targeting of FABP3 with a radiolabelled small organic compound would visualise myocardium.

Results: The selective FABP3 inhibitor, 4-(4-fluoro-2-(1-phenyl-5-(2-(trifluoromethyl)phenyl)-1H-pyrazol-3-yl)phenoxy)butanoic acid (LUF), was radiolabelled via a two-step reaction comprising copper-mediated ¹⁸F-fluorination of an arylboronic precursor followed by alkaline hydrolysis of the ethoxy protecting group. [¹⁸F]LUF was successfully synthesised by automated synthesiser with sufficient activity yields (14.0 ± 1.8 GBq) and high quality (molar activity, > 250 GBq/µmol and radiochemical purity, > 99.6%). Biological assessment of [¹⁸F]LUF as an in vivo myocardial imaging agent included evaluations of biodistribution, metabolite analysis, and positron emission tomography (PET) imaging of small animals. [¹⁸F]LUF clearly visualised the myocardium with high contrast against background tissues such as the lung and liver. [¹⁸F]LUF also showed a high absolute myocardial uptake equivalent to that of the promising myocardial perfusion tracer [¹⁸F]flurpiridaz and excellent metabolic stability in the body. These properties are ideal for stable and noise-less imaging of the heart. PET imaging of rat surgical permanent myocardial infarction (MI) and experimental autoimmune myocarditis (EAM) was also performed. [¹⁸F]LUF successfully visualised lesions of permanent MI and EAM.

Conclusion: Our results showed for the first time that the ¹⁸F-labelled FABP3 selective small organic compound clearly visualised myocardium with good quality. To determine the clinical utility of [¹⁸F]LUF for cardiovascular disease in clinical practice, it will be necessary to evaluate a greater variety of cardiovascular disease models and elucidate the accumulation mechanism, particularly in relation to fatty acid metabolism in the myocardium.

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用新型氟-18 标记的选择性 FABP3 配体点亮心脏型脂肪酸结合蛋白 (FABP3)。

背景：心脏型脂肪酸结合蛋白（FABP3心脏型脂肪酸结合蛋白（FABP3）是脂质伴侣蛋白的一个家族。它们存在于细胞质中，能促进细胞脂肪酸的溶解、运输和新陈代谢。FABP3 在心肌中高度表达，并在心肌损伤时从心肌细胞中释放出来。由于 FABP3 在心肌中的含量与脂肪酸的代谢状态密切相关，我们假设用放射性标记的小型有机化合物靶向 FABP3 可以使心肌可视化：结果：选择性 FABP3 抑制剂 4-(4-氟-2-(1-苯基-5-(2-(三氟甲基)苯基)-1H-吡唑-3-基)苯氧基)丁酸（LUF）是通过两步反应进行放射性标记的，该反应包括铜介导的芳硼酸前体的 18F 氟化，然后是乙氧基保护基团的碱性水解。[18F]LUF 是通过自动合成器成功合成的，具有足够的活性产量（14.0 ± 1.8 GBq）和高质量（摩尔活性 > 250 GBq/µmol，放射化学纯度 > 99.6%）。[18F]LUF作为体内心肌成像剂的生物学评估包括生物分布评估、代谢物分析和小动物正电子发射断层扫描（PET）成像。[18F]LUF能清晰显示心肌，与肺部和肝脏等背景组织对比度高。[18F]LUF的心肌绝对摄取量也很高，与前景看好的心肌灌注示踪剂[18F]氟哌啶氮相当，而且在体内代谢稳定性极佳。这些特性是对心脏进行稳定、无噪音成像的理想选择。此外，还对大鼠手术永久性心肌梗死（MI）和实验性自身免疫性心肌炎（EAM）进行了 PET 成像。[18F]LUF成功地显示了永久性心肌梗死和实验性自身免疫性心肌炎的病灶：我们的研究结果首次表明，18F 标记的 FABP3 选择性小分子有机化合物能清晰地观察到高质量的心肌。要确定[18F]LUF在临床实践中对心血管疾病的临床实用性，有必要对更多种类的心血管疾病模型进行评估，并阐明其积累机制，特别是与心肌中脂肪酸代谢有关的机制。

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来源期刊

EJNMMI Research RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING&nb-

CiteScore

5.90

自引率

3.10%

发文量

审稿时长

13 weeks

期刊介绍： EJNMMI Research publishes new basic, translational and clinical research in the field of nuclear medicine and molecular imaging. Regular features include original research articles, rapid communication of preliminary data on innovative research, interesting case reports, editorials, and letters to the editor. Educational articles on basic sciences, fundamental aspects and controversy related to pre-clinical and clinical research or ethical aspects of research are also welcome. Timely reviews provide updates on current applications, issues in imaging research and translational aspects of nuclear medicine and molecular imaging technologies. The main emphasis is placed on the development of targeted imaging with radiopharmaceuticals within the broader context of molecular probes to enhance understanding and characterisation of the complex biological processes underlying disease and to develop, test and guide new treatment modalities, including radionuclide therapy.