放射性碘化苯氧基喹唑啉和苄基氨基喹唑啉衍生物作为新型表皮生长因子受体酪氨酸激酶成像配体用于肿瘤诊断的单光子发射计算机断层扫描(SPECT)合成与评估
Synthesis and evaluation of radioiodinated phenoxyquinazoline and benzylaminoquinazoline derivatives as new EGF receptor tyrosine kinase imaging ligands for tumor diagnosis using SPECT.
作者信息
Hirata Masahiko, Kanai Yasukazu, Naka Sadahiro, Matsumuro Keiji, Kagawa Shinya, Yoshimoto Mitsuyoshi, Ohmomo Yoshiro
机构信息
Osaka University of Pharmaceutical Sciences, 4-20-1 Nasahara, Takatsuki, Osaka, 569-1094, Japan.
出版信息
Ann Nucl Med. 2012 Jun;26(5):381-9. doi: 10.1007/s12149-012-0583-6. Epub 2012 Feb 22.
OBJECTIVE
Epidermal growth factor receptor tyrosine kinase (EGFR-TK) represents an attractive target for tumor diagnosis agents. Previously, the radioiodinated 4-(3-iodoanilino)-6,7-diethoxyquinazoline ([(125)I]m-IPQ) has been reported to possess good characteristics as a tumor imaging agent; however, it was also found to have low in vivo stability. To improve the in vivo stability, m-IPQ derivatives, 4-(3-iodophenoxy)-6,7-diethoxyquinazoline (PHY) and 4-(3-iodobenzylamino)-6,7-diethoxyquinazoline (BAY) were designed and synthesized, and the biological studies of [(125)I]PHY and [(125)I]BAY were performed to evaluate these new ligands as in vivo tumor diagnosis agents.
METHODS
PHY and BAY were synthesized according to previous reports. The EGFR-TK inhibitory potency of these new compounds was measured and compared to other EGFR-TK inhibitors. Radiolabeled [(125)I]PHY and [(125)I]BAY were synthesized by an iododestannylation reaction. Biodistribution studies of these radioligands were conducted in normal mice and tumor-bearing mice. Furthermore, selectivity and binding characteristics of [(125)I]PHY were analyzed by in vitro blocking studies and a binding assay.
RESULTS
The new derivatives were found to have high inhibitory potency against EGFR-TK (PHY: IC50 = 12.7 ± 7.2 nM, BAY: IC50 = 51.0 ± 8.9 nM). [(125)I]PHY and [(125)I]BAY were conveniently synthesized from tributylstannyl precursors. In in vivo biodistribution studies, [(125)I]PHY and [(125)I]BAY were observed to have lower uptake in the stomach, an indication of deiodination, than [(125)I]m-IPQ. Moreover, [(125)I]PHY showed high uptake and prolonged retention in tumors and low accumulation in blood and muscle tissue resulting in a good tumor-to-blood ratio (0.94-1.50) and tumor-to-muscle ratio (1.02-1.95). The EGFR-TK selectivity of [(125)I]PHY was confirmed by pretreatment experiments with specific EGFR-TK inhibitors.
CONCLUSION
New radioiodinated quinazoline derivatives were synthesized, which were found to have improved in vivo stability. In particular, [(125)I]PHY showed higher tumor accumulation than the other ligands which was indicative of selective binding to EGFR-TK. These desirable characteristics for [(125)I]PHY suggest that the (123)I-labeled counterpart, [(123)I]PHY, could be a possible candidate for cancer diagnosis radiopharmaceutical.
目的
表皮生长因子受体酪氨酸激酶(EGFR-TK)是肿瘤诊断试剂的一个有吸引力的靶点。此前,已报道放射性碘化的4-(3-碘苯胺基)-6,7-二乙氧基喹唑啉([(125)I]m-IPQ)作为肿瘤显像剂具有良好特性;然而,也发现其体内稳定性较低。为提高体内稳定性,设计并合成了m-IPQ衍生物4-(3-碘苯氧基)-6,7-二乙氧基喹唑啉(PHY)和4-(3-碘苄氨基)-6,7-二乙氧基喹唑啉(BAY),并对[(125)I]PHY和[(125)I]BAY进行生物学研究,以评估这些新配体作为体内肿瘤诊断试剂的性能。
方法
根据先前报道合成PHY和BAY。测定这些新化合物对EGFR-TK的抑制效力,并与其他EGFR-TK抑制剂进行比较。通过碘脱锡反应合成放射性标记的[(125)I]PHY和[(125)I]BAY。在正常小鼠和荷瘤小鼠中进行这些放射性配体的生物分布研究。此外,通过体外阻断研究和结合试验分析[(125)I]PHY的选择性和结合特性。
结果
发现新衍生物对EGFR-TK具有高抑制效力(PHY:IC50 = 12.7 ± 7.2 nM,BAY:IC50 = 51.0 ± 8.9 nM)。[(125)I]PHY和[(125)I]BAY可方便地由三丁基锡前体合成。在体内生物分布研究中,观察到[(125)I]PHY和[(125)I]BAY在胃中的摄取低于[(125)I]m-IPQ,这表明存在脱碘现象。此外,[(125)I]PHY在肿瘤中显示出高摄取和长时间滞留,在血液和肌肉组织中积累低,导致良好的肿瘤与血液比值(0.94 - 1.50)和肿瘤与肌肉比值(1.02 - 1.95)。通过用特异性EGFR-TK抑制剂进行预处理实验,证实了[(125)I]PHY对EGFR-TK的选择性。
结论
合成了新的放射性碘化喹唑啉衍生物,发现其体内稳定性有所提高。特别是,[(125)I]PHY显示出比其他配体更高的肿瘤积累,这表明其与EGFR-TK有选择性结合。[(125)I]PHY的这些理想特性表明,(123)I标记的对应物[(123)I]PHY可能是癌症诊断放射性药物的一个候选物。
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