I. Medizinische Klinik und Poliklinik, Universtitäsmedizin Mainz, Mainz, Germany.
Endoscopy. 2013 Jun;45(6):469-77. doi: 10.1055/s-0032-1326361. Epub 2013 Apr 11.
Molecular imaging has mainly been studied for detection of lesions using diagnostic probes. The aim of the current trial was to evaluate in vivo confocal laser endomicroscopy (CLE) with cetuximab, an antibody targeting the epidermal growth factor receptor (EGFR), for detection and moreover early prediction of response to molecular chemotherapy in models of human colorectal cancer (CRC).
Xenografts with cetuximab-sensitive (HT29) and cetuximab-resistant (SW620) human CRC cell lines were induced in 44 mice. CLE was performed 48 h after injection of a fluorescently labelled cetuximab test dose, and compared with isotype antibody or untreated controls on d0, and d30 (HT29) or d15 (SW620). Initial fluorescence intensity was examined in relation to clinical readouts (tumor growth, thriving, mortality) during cetuximab treatment vs. controls. Results were validated in vivo with wide-field molecular imaging in three HT29 mice and ex vivo using fluorescence-activated cell sorting (FACS) and immunohistochemistry.
All HT29 xenografts showed specific fluorescence in vivo after cetuximab injection on d0 and d30. Fluorescence at d0 was significantly stronger in cetuximab-treated HT29 tumors than in HT29 controls (P = 0.0017) or cetuximab-treated SW620 tumors (P = 0.0027), and accorded with significantly slower tumor progression (P = 0.0009), better overall survival (P = 0.02), and better physical condition (P < 0.0001). Cetuximab sensitivity could be predicted from fluorescence intensity at d0 with high positive predictive value.
Molecular CLE was for the first time linked to early prediction of response to targeted therapy in models of human CRC. Therapeutic antibodies can be used as molecular beacons in CLE and wide-field techniques. These results may indicate a promising principle for early patient stratification.
分子成像主要用于使用诊断探针检测病变。本试验旨在评估表皮生长因子受体(EGFR)靶向抗体西妥昔单抗的体内共聚焦激光内镜(CLE)检测能力,并预测其对人结直肠癌(CRC)模型中分子化疗的早期反应。
在 44 只小鼠中诱导具有西妥昔单抗敏感性(HT29)和西妥昔单抗耐药性(SW620)的人 CRC 细胞系的异种移植物。在注射荧光标记的西妥昔单抗测试剂量后 48 小时进行 CLE,并在 d0 和 d30(HT29)或 d15(SW620)时与同种型抗体或未处理的对照组进行比较。根据西妥昔单抗治疗与对照期间的临床读数(肿瘤生长、活力、死亡率),检查初始荧光强度与临床读数的关系。在 3 只 HT29 小鼠中用宽场分子成像进行体内验证,并通过荧光激活细胞分选(FACS)和免疫组织化学进行离体验证。
所有 HT29 异种移植物在 d0 和 d30 注射西妥昔单抗后均在体内显示出特异性荧光。与 HT29 对照组(P = 0.0017)或西妥昔单抗处理的 SW620 肿瘤(P = 0.0027)相比,西妥昔单抗治疗的 HT29 肿瘤在 d0 时的荧光强度明显更强,并且肿瘤进展明显较慢(P = 0.0009),总生存期更好(P = 0.02),身体状况更好(P < 0.0001)。d0 时的荧光强度可以预测西妥昔单抗的敏感性,具有很高的阳性预测值。
首次将分子 CLE 与人类 CRC 模型中靶向治疗的早期反应预测联系起来。治疗性抗体可作为 CLE 和宽场技术中的分子示踪剂。这些结果可能表明早期患者分层的有希望的原则。
