用于结直肠癌异种移植小鼠肿瘤成像的近红外荧光标记抗TAG-72单克隆抗体
Near-infrared fluorescence labeled anti-TAG-72 monoclonal antibodies for tumor imaging in colorectal cancer xenograft mice.
作者信息
Zou Peng, Xu Songbo, Povoski Stephen P, Wang Anna, Johnson Morgan A, Martin Edward W, Subramaniam Vish, Xu Ronald, Sun Duxin
机构信息
Department of Pharmaceutical Sciences, College of Pharmacy, The University of Michigan, 428 Church Street, Ann Arbor, Michigan 48109, USA.
出版信息
Mol Pharm. 2009 Mar-Apr;6(2):428-40. doi: 10.1021/mp9000052.
Anti-TAG-72 monoclonal antibodies target the tumor-associated glycoprotein (TAG)-72 in various solid tumors. This study evaluated the use of anti-TAG-72 monoclonal antibodies, both murine CC49 and humanized CC49 (HuCC49deltaCH2), for near-infrared fluorescent (NIR) tumor imaging in colorectal cancer xenograft models. The murine CC49 and HuCC49deltaCH2 were conjugated with Cy7 monofunctional N-hydroxysuccinimide ester (Cy7-NHS). Both in vitro and in vivo anti-TAG-72 antibody binding studies were performed. The in vitro study utilized the human colon adenocarcinoma cell line LS174T that was incubated with Cy7, antibody-Cy7 conjugates, or excessive murine CC49 followed by the antibody-Cy7 conjugates and was imaged by fluorescence microscopy. The in vivo study utilized xenograft mice, bearing LS174T subcutaneous tumor implants, that received tail vein injections of Cy7, murine CC49-Cy7, HuCC49deltaCH2-Cy7, or nonspecific IgG-Cy7 and were imaged by the Xenogen IVIS 100 system from 15 min to 288 h. The biodistribution of the fluorescence labeled antibodies was determined by imaging the dissected tissues. The in vitro study revealed that the antibody-Cy7 conjugates bound to LS174T cells and were blocked by excessive murine CC49. The in vivo study demonstrated that murine CC49 achieved a tumor/blood ratio of 15 at 96 h postinjection. In comparison, HuCC49deltaCH2-Cy7 cleared much faster than murine CC49-Cy7 from the xenograft mice, and HuCC49deltaCH2-Cy7 achieved a tumor/blood ratio of 12 at 18 h postinjection. In contrast, Cy7 and Cy7 labeled nonspecific IgG resulted in no demonstrable tumor accumulation. When mice were injected with excessive unlabeled murine CC49 at 6 h before the injection of murine CC49-Cy7 or HuCC49deltaCH2-Cy7, both the intensity and retention time of the fluorescence from the tumor were reduced. In summary, the Cy7 labeled murine CC49 and HuCC49deltaCH2 demonstrate tumor-targeting capabilities in living colorectal cancer xenograft mice and provide an alternative modality for tumor imaging.
抗TAG-72单克隆抗体可靶向多种实体瘤中的肿瘤相关糖蛋白(TAG)-72。本研究评估了鼠源CC49和人源化CC49(HuCC49deltaCH2)这两种抗TAG-72单克隆抗体在结直肠癌异种移植模型中用于近红外荧光(NIR)肿瘤成像的情况。将鼠源CC49和HuCC49deltaCH2与Cy7单功能N-羟基琥珀酰亚胺酯(Cy7-NHS)偶联。进行了体外和体内抗TAG-72抗体结合研究。体外研究使用人结肠腺癌细胞系LS174T,将其与Cy7、抗体-Cy7偶联物或过量的鼠源CC49孵育,随后加入抗体-Cy7偶联物,并通过荧光显微镜成像。体内研究使用携带LS174T皮下肿瘤植入物的异种移植小鼠,通过尾静脉注射Cy7、鼠源CC49-Cy7、HuCC49deltaCH2-Cy7或非特异性IgG-Cy7,并在15分钟至288小时内用Xenogen IVIS 100系统成像。通过对解剖后的组织成像来确定荧光标记抗体的生物分布。体外研究表明,抗体-Cy7偶联物与LS174T细胞结合,并被过量的鼠源CC49阻断。体内研究表明,鼠源CC49在注射后96小时时肿瘤/血液比值达到15。相比之下,HuCC49deltaCH2-Cy7从异种移植小鼠体内清除的速度比鼠源CC49-Cy7快得多,HuCC49deltaCH2-Cy7在注射后18小时时肿瘤/血液比值达到12。相反,Cy7和Cy7标记的非特异性IgG未显示出明显的肿瘤蓄积。当在注射鼠源CC49-Cy7或HuCC49deltaCH2-Cy7前6小时给小鼠注射过量未标记的鼠源CC49时,肿瘤荧光的强度和保留时间均降低。总之,Cy7标记的鼠源CC49和HuCC49deltaCH2在活体结直肠癌异种移植小鼠中显示出肿瘤靶向能力,并为肿瘤成像提供了一种替代方式。
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