99mTc标记的葡糖氨基RGD的良好生物动力学和肿瘤靶向特性以及紫杉醇治疗的效果。

Favorable biokinetic and tumor-targeting properties of 99mTc-labeled glucosamino RGD and effect of paclitaxel therapy.

作者信息

Jung Kyung-Ho, Lee Kyung-Han, Paik Jin-Young, Ko Bong-Ho, Bae Jun-Sang, Lee Byung Chul, Sung Hyun Ju, Kim Dong Hyun, Choe Yearn Seong, Chi Dae Yoon

机构信息

Department of Nuclear Medicine, Samsung Medical Center, Sungkyunkwan University School of Medicine, Kangnam-Gu, Seoul, Korea.

出版信息

J Nucl Med. 2006 Dec;47(12):2000-7.

PMID:17138743

Abstract

UNLABELLED

Compared with the recent advancements in radiohalogenated Arg-Gly-Asp (RGD) peptides for alpha(v)beta(3)-targeted imaging, there has been limited success with (99m)Tc-labeled RGD compounds. In this article, we describe the favorable in vivo kinetics and tumor-imaging properties of a novel (99m)Tc-RGD compound that contains a glucosamine moiety.

METHODS

Glucosamino (99m)Tc-d-c(RGDfK) was prepared by incorporating (99m)Tc(CO)(3) to the glucosamino peptide precursor in high radiochemical yield. Cell-binding characteristics were tested on human endothelial cells. Mice bearing RR1022 fibrosarcoma and Lewis lung carcinoma (LLC) tumors were used for in vivo biodistribution and blocking experiments and for imaging studies. Separate LLC-bearing mice underwent antiangiogenic therapy with 0, 20, or 40 mg of paclitaxel per kilogram of body weight every 2 d. Tumor volume was serially monitored, and tumor glucosamino (99m)Tc-d-c(RGDfK) uptake and Western blots of alpha(v) integrin expression were analyzed at day 14.

RESULTS

Glucosamino (99m)Tc-d-c(RGDfK) binding to endothelial cells was dose-dependently inhibited by excess RGD. Biodistribution in mice showed rapid blood clearance of glucosamino (99m)Tc-d-c(RGDfK), with substantially lower liver uptake and higher tumor uptake compared with (125)I-c(RGD(I)yV). Tumor uptake was 1.03 +/- 0.21 and 1.18 +/- 0.26 %ID/g at 1 h and 0.85 +/- 0.05 and 0.89 +/- 0.28 %ID/g at 4 h for sarcomas and carcinomas, respectively. Excess RGD blocked uptake by 76.5% and 70.2% for the respective tumors. gamma-Camera imaging allowed clear tumor visualization, with an increase of sarcoma-to-thigh count ratios from 5.5 +/- 0.7 at 1 h to 10.1 +/- 2.2 at 4 h and sustained carcinoma-to-thigh count ratios from 4 to 17 h. Pretreatment with excess cRGDyV significantly reduced tumor contrast on images. Paclitaxel therapy in LLC tumor-bearing mice significantly retarded tumor growth. This was accompanied by a corresponding reduction of tumor glucosamino (99m)Tc-d-c(RGDfK) uptake, which correlated significantly with tumor alpha(v) integrin expression levels.

CONCLUSION

Glucosamino (99m)Tc-d-c(RGDfK) has favorable in vivo biokinetics and tumor-imaging properties and may be useful for noninvasive evaluation of tumor integrin expression and response to antiangiogenic therapeutics. Because of the wide accessibility of gamma-cameras and high availability and excellent imaging characteristics of (99m)Tc, glucosamino (99m)Tc-d-c(RGDfK) may be an attractive alternative to radiohalogenated RGD peptides for angiogenesis-imaging research.

摘要

未标记

与用于α(v)β(3)靶向成像的放射性卤代精氨酸-甘氨酸-天冬氨酸（RGD）肽的最新进展相比，(99m)Tc标记的RGD化合物取得的成功有限。在本文中，我们描述了一种含有葡糖胺部分的新型(99m)Tc-RGD化合物良好的体内动力学和肿瘤成像特性。

方法

通过将(99m)Tc(CO)3掺入葡糖胺肽前体中，以高放射化学产率制备葡糖胺(99m)Tc-d-c(RGDfK)。在人内皮细胞上测试细胞结合特性。使用携带RR1022纤维肉瘤和Lewis肺癌（LLC）肿瘤的小鼠进行体内生物分布和阻断实验以及成像研究。单独的携带LLC肿瘤的小鼠每2天接受0、20或40mg/kg体重的紫杉醇抗血管生成治疗。连续监测肿瘤体积，并在第14天分析肿瘤葡糖胺(99m)Tc-d-c(RGDfK)摄取和α(v)整合素表达的蛋白质印迹。

结果

过量的RGD剂量依赖性地抑制葡糖胺(99m)Tc-d-c(RGDfK)与内皮细胞的结合。小鼠体内生物分布显示葡糖胺(99m)Tc-d-c(RGDfK)的血液清除迅速，与(125)I-c(RGD(I)yV)相比，肝脏摄取显著降低，肿瘤摄取更高。肉瘤在1小时和4小时的肿瘤摄取分别为1.03±0.21%ID/g和0.85±0.05%ID/g，癌在1小时和4小时的肿瘤摄取分别为1.18±0.26%ID/g和0.89±0.28%ID/g。过量的RGD分别使相应肿瘤的摄取降低76.5%和70.2%。γ相机成像可清晰显示肿瘤，肉瘤与大腿的计数比从1小时的5.5±0.7增加到4小时的10.1±2.2，癌与大腿的计数比在4至17小时持续保持。用过量的cRGDyV预处理可显著降低图像上的肿瘤对比度。在携带LLC肿瘤的小鼠中进行紫杉醇治疗可显著延缓肿瘤生长。这伴随着肿瘤葡糖胺(99m)Tc-d-c(RGDfK)摄取相应降低，这与肿瘤α(v)整合素表达水平显著相关。

结论

葡糖胺(99m)Tc-d-c(RGDfK)具有良好的体内生物动力学和肿瘤成像特性，可能有助于对肿瘤整合素表达和抗血管生成治疗反应进行无创评估。由于γ相机广泛可用以及(99m)Tc的高可用性和出色的成像特性，葡糖胺(99m)Tc-d-c(RGDfK)可能是用于血管生成成像研究的放射性卤代RGD肽的有吸引力的替代物。