通过顺序 C-H 放射性标记对新型 [18F]fluorolidocaine 类似物进行自动放射性合成和临床前成像。

IF 4.1 4区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Madison Frazier, Jay S. Wright, David M. Raffel, Jenelle Stauff, Wade P. Winton, Peter J. H. Scott and Allen F. Brooks
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引用次数: 0

摘要

最主要的心肌电压门控钠通道 NaV1.5 是治疗心血管疾病的主要药物靶点。然而,由于对编码 NaV1.5 的基因 SCN5A 的密度与治疗反应和疾病预后之间的关系缺乏充分了解,确定治疗方法和开发治疗药物的工作变得十分复杂。为了应对这些挑战,人们在正电子发射断层扫描(PET)成像中使用了源自 NaV1.5 阻断疗法的成像剂,以推断 SCN5A 的表达与体内人类疾病的关系。在此,我们介绍了一种新型氟-18 标记的利多卡因类似物的制备方法,它是一种已知的 NaV1.5 抑制剂,并将这种制剂与之前描述的类似物进行了比较。啮齿动物和非人灵长类 PET 成像实验的证据表明,这些制剂的成像效用可能会受到快速代谢和清除的限制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Automated radiosynthesis and preclinical imaging of a novel [18F]fluorolidocaine analogue via sequential C–H radiolabelling†

Automated radiosynthesis and preclinical imaging of a novel [18F]fluorolidocaine analogue via sequential C–H radiolabelling†

Automated radiosynthesis and preclinical imaging of a novel [18F]fluorolidocaine analogue via sequential C–H radiolabelling†

The most prominent myocardial voltage-gated sodium channel, NaV1.5, is a major drug target for treating cardiovascular disease. However, treatment determination and therapeutic development are complicated partly by an inadequate understanding of how the density of SCN5A, the gene that encodes NaV1.5, relates to treatment response and disease prognosis. To address these challenges, imaging agents derived from NaV1.5 blocking therapeutics have been employed in positron emission tomography (PET) imaging to infer how SCN5A expression relates to human disease in vivo. Herein, we describe the preparation of a novel fluorine-18 labelled analogue of lidocaine, a known NaV1.5 inhibitor, and compare this agent to a previously described analogue. Evidence from rodent and non-human primate PET imaging experiments suggests that the imaging utility of these agents may be limited by rapid metabolism and clearance.

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来源期刊
CiteScore
5.80
自引率
2.40%
发文量
129
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