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通过非侵入性测量丙酮酸激酶 M2 来成像肿瘤糖酵解的 [F]DASA-23 的开发。

Development of [F]DASA-23 for Imaging Tumor Glycolysis Through Noninvasive Measurement of Pyruvate Kinase M2.

机构信息

Department of Radiology, Molecular Imaging Program at Stanford, Stanford University, Stanford, CA, 943065, USA.

Department of Neurology and Neurological Sciences, Stanford University, Stanford, CA, 943065, USA.

出版信息

Mol Imaging Biol. 2017 Oct;19(5):665-672. doi: 10.1007/s11307-017-1068-8.

DOI:10.1007/s11307-017-1068-8
PMID:28236227
Abstract

PURPOSE

A hallmark of cancer is metabolic reprogramming, which is exploited by cancer cells to ensure rapid growth and survival. Pyruvate kinase M2 (PKM2) catalyzes the final step in glycolysis, a key step in tumor metabolism and growth. Recently, we reported the radiosynthesis of the first positron emission tomography tracer for visualizing PKM2 in vivo-i.e., [C]DASA-23. Due to the highly promising imaging results obtained with [C]DASA-23 in rodent model glioblastoma, we set out to generate an F-18-labeled version of this tracer, with the end goal of clinical translation in mind. Herein, we report the radiosynthesis of 1-((2-fluoro-6-[F]fluorophenyl)sulfonyl)-4-((4-methoxyphenyl)sulfonyl)piperazine ([F]DASA-23) and our initial investigation of its binding properties in cancer cells.

PROCEDURE

We synthesized [F]DASA-23 via fluorination of 1-((2-fluoro-6-nitrophenyl)sulfonyl)-4-((4-methoxyphenyl)sulfonyl)piperazine (10) with K[F]F/K2.2.2 in N,N-dimethylformamide at 110 °C for 20 min. Subsequently, we evaluated uptake of [F]DASA-23 in HeLa cervical adenocarcinoma cells and in vitro stability in human and mouse serum.

RESULTS

We successfully prepared [F]DASA-23 in 2.61 ± 1.54 % radiochemical yield (n = 10, non-decay corrected at end of synthesis) with a specific activity of 2.59 ± 0.44 Ci/μmol. Preliminary cell uptake experiments revealed high uptake in HeLa cells, which was effectively blocked by pretreating cells with the structurally distinct PKM2 activator, TEPP-46. [F]DASA-23 remained intact in human and mouse serum up to 120 min.

CONCLUSION

Herein, we have identified a F-18-labeled PKM2 specific radiotracer which shows potential for in vivo imaging. The promising cell uptake results reported herein warrant the further evaluation of [F]DASA-23 for its ability to detect and monitor cancer noninvasively.

摘要

目的

癌症的一个标志是代谢重编程,癌细胞利用这种重编程来确保快速生长和存活。丙酮酸激酶 M2(PKM2)催化糖酵解的最后一步,这是肿瘤代谢和生长的关键步骤。最近,我们报道了用于体内可视化 PKM2 的第一个正电子发射断层扫描示踪剂的放射性合成 - 即 [C]DASA-23。由于 [C]DASA-23 在啮齿动物模型胶质母细胞瘤中获得了非常有前途的成像结果,我们着手生成这种示踪剂的 F-18 标记版本,旨在最终实现临床转化。在此,我们报告了 1-((2-氟-6-[F]氟苯基)磺酰基)-4-((4-甲氧基苯基)磺酰基)哌嗪([F]DASA-23)的放射性合成及其在癌细胞中结合特性的初步研究。

过程

我们通过用 K[F]F/K2.2.2 在 N,N-二甲基甲酰胺中于 110°C 氟化 1-((2-氟-6-硝基苯基)磺酰基)-4-((4-甲氧基苯基)磺酰基)哌嗪(10)20 分钟来合成 [F]DASA-23。随后,我们评估了 [F]DASA-23 在 HeLa 宫颈腺癌细胞中的摄取以及在人血清和鼠血清中的体外稳定性。

结果

我们成功地以 2.61±1.54%的放射性化学产率(n=10,非衰变校正,在合成结束时)制备了 [F]DASA-23,其比活度为 2.59±0.44Ci/μmol。初步的细胞摄取实验表明,在 HeLa 细胞中的摄取很高,用结构上不同的 PKM2 激活剂 TEPP-46 预处理细胞可有效阻断摄取。[F]DASA-23 在人血清和鼠血清中在 120 分钟内保持完整。

结论

在此,我们确定了一种 F-18 标记的 PKM2 特异性放射性示踪剂,具有体内成像的潜力。本文报道的有前途的细胞摄取结果证明了 [F]DASA-23 用于非侵入性检测和监测癌症的能力值得进一步评估。

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