基于金笼（sarcophagine）笼的 PET/荧光探针的高效构建：诊断与治疗一体化的机会。

Efficient construction of PET/fluorescence probe based on sarcophagine cage: an opportunity to integrate diagnosis with treatment.

机构信息

Department of Radiology, Keck School of Medicine, Molecular Imaging Center, University of Southern California, Los Angeles, CA 90033, USA.

出版信息

Mol Imaging Biol. 2012 Dec;14(6):718-24. doi: 10.1007/s11307-012-0557-z.

DOI:10.1007/s11307-012-0557-z

PMID:22476968

Abstract

PURPOSE

Due to the shortage of established platforms/methods for multimodality probe construction, in this study, we developed a heterofunctional chelator, BaAn(Boc)Sar, from sarcophagine cage as a general platform for dual-modality probe construction.

PROCEDURES

A dual-modality probe for positron-emission tomography (PET) and fluorescence imaging was synthesized using the developed BaAn(Boc)Sar chelator. The c(RGDyK)(2) peptide (denoted as RGD(2)) and fluorescence dye Cy5.5 were conjugated with BaAn(Boc)Sar to form BaAnSar-RGD(2)-Cy5.5. Then, BaAnSar-RGD(2)-Cy5.5 was labeled with (64)Cu in ammonium acetate buffer. PET and fluorescent imaging were carried out to evaluate (64)Cu-BaAnSar-RGD(2)-Cy5.5 in nude mice bearing U87MG glioblastoma xenograft.

RESULTS

The BaAnSar-RGD(2)-Cy5.5 was labeled with (64)Cu very efficiently in 0.1 M NH(4)OAc buffer within 10 min at 37 °C in the yield of 86.7 ± 4.4 % (n = 3). The specific activity of (64)Cu-BaBaSar-RGD(2) was controlled at 50-200 mCi/μmol for the consideration of both PET and optical imaging. MicroPET quantification analysis shows that the U87MG tumor uptake is 6.41 ± 0.28, 6.51 ± 1.45, and 5.92 ± 1.57 %ID/g at 1, 4, and 20 h postinjection, respectively. Good correlation was obtained between the tumor to muscle ratios measured by the radioactivity and fluorescence intensity. As a proof of concept, an animal surgery study demonstrated that this dual-modality probe would greatly benefit the patients because the PET moiety could be used for tumor detection, and the fluorescent moiety would allow image-guided surgery.

CONCLUSIONS

Our findings demonstrated the effectiveness and feasibility of preparing dual-modality imaging probes based on the sarcophagine scaffold. The resulting PET and fluorescent imaging probe also holds a great potential for clinical translation.

摘要

目的

由于缺乏建立多模态探针构建的既定平台/方法，在本研究中，我们从金琥笼中开发了一种杂功能螯合剂 BaAn（Boc）Sar，作为双模态探针构建的通用平台。

程序

使用开发的 BaAn（Boc）Sar 螯合剂合成了正电子发射断层扫描（PET）和荧光成像的双模态探针。将 c（RGDyK）（2）肽（表示为 RGD（2））和荧光染料 Cy5.5 与 BaAn（Boc）Sar 缀合，形成 BaAnSar-RGD（2）-Cy5.5。然后，在乙酸铵缓冲液中用（64）Cu 标记 BaAnSar-RGD（2）-Cy5.5。在荷 U87MG 胶质母细胞瘤异种移植的裸鼠中进行 PET 和荧光成像，以评估（64）Cu-BaAnSar-RGD（2）-Cy5.5。

结果

在 37°C 下，在 0.1 M NH4OAc 缓冲液中，BaAnSar-RGD（2）-Cy5.5 在 10 分钟内非常有效地用（64）Cu 标记，产率为 86.7±4.4%（n=3）。考虑到 PET 和光学成像，（64）Cu-BaBaSar-RGD（2）的比活度控制在 50-200mCi/μmol。MicroPET 定量分析表明，U87MG 肿瘤摄取分别为 1、4 和 20 小时后 6.41±0.28、6.51±1.45 和 5.92±1.57%ID/g。放射性和荧光强度测量的肿瘤与肌肉比值之间得到了很好的相关性。作为概念验证，动物手术研究表明，这种双模态探针将极大地有益于患者，因为 PET 部分可用于肿瘤检测，而荧光部分将允许图像引导手术。

结论

我们的研究结果表明，基于金琥笼骨架制备双模态成像探针是有效且可行的。所得的 PET 和荧光成像探针也具有很大的临床转化潜力。

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基于金笼（sarcophagine）笼的 PET/荧光探针的高效构建：诊断与治疗一体化的机会。

Efficient construction of PET/fluorescence probe based on sarcophagine cage: an opportunity to integrate diagnosis with treatment.

机构信息

Department of Radiology, Keck School of Medicine, Molecular Imaging Center, University of Southern California, Los Angeles, CA 90033, USA.

出版信息

Mol Imaging Biol. 2012 Dec;14(6):718-24. doi: 10.1007/s11307-012-0557-z.

DOI:10.1007/s11307-012-0557-z

PMID:22476968

Abstract

PURPOSE

PROCEDURES

RESULTS

CONCLUSIONS

摘要

目的

程序

结果

结论

我们的研究结果表明，基于金琥笼骨架制备双模态成像探针是有效且可行的。所得的 PET 和荧光成像探针也具有很大的临床转化潜力。

基于金笼（sarcophagine）笼的 PET/荧光探针的高效构建：诊断与治疗一体化的机会。

Efficient construction of PET/fluorescence probe based on sarcophagine cage: an opportunity to integrate diagnosis with treatment.

机构信息

出版信息

PURPOSE

PROCEDURES

RESULTS

CONCLUSIONS

目的

程序

结果

结论

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基于金笼（sarcophagine）笼的 PET/荧光探针的高效构建：诊断与治疗一体化的机会。

Efficient construction of PET/fluorescence probe based on sarcophagine cage: an opportunity to integrate diagnosis with treatment.

机构信息

出版信息

PURPOSE

PROCEDURES

RESULTS

CONCLUSIONS

目的

程序

结果

结论

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