Stish Brad J, Chen Hua, Shu Yanqun, Panoskaltsis-Mortari Angela, Vallera Daniel A
Department of Therapeutic Radiology-Radiation Oncology, University of Minnesota Cancer Center, Minneapolis, Minnesota 55455, USA.
Clin Cancer Res. 2007 May 15;13(10):3058-67. doi: 10.1158/1078-0432.CCR-06-2454.
erbB2, the product of the Her2-neu gene, is a well-established therapeutic target for antibody-based biologicals, but anti-erbB2 antibody-toxin fusion proteins are limited in their activity. The goal of this study was to determine if genetically adding an sFv targeting epithelial cell adhesion molecule (EpCAM) to an anti-Her2 sFv immunotoxin would result in enhanced antitumor activity.
In vitro studies were done in which the new bispecific immunotoxin DTEpCAM23 was compared with monospecific immunotoxins (DTEpCAM and DT23) to quantitate immunotoxin activity. Mixtures of monospecific immunotoxins were tested to determine if they were as effective as the bispecific immunotoxin. Binding and internalization studies were also done. In vivo, bispecific immunotoxins were given i.t. to athymic nude mice bearing HT-29 human colon cancer flank tumors and i.p. to mice with i.p. tumors.
DTEpCAM23 bispecific immunotoxins showed far greater activity than monospecific immunotoxin (sometimes over 2,000-fold) against most tumor lines. Bispecific immunotoxin was superior and selective in its activity against different carcinoma cell lines. Bispecific immunotoxin had greater activity than monospecific immunotoxin indicating an advantage of having both sFv on the same single-chain molecule. Binding and internalization studies did not explain the differences between bispecific immunotoxin and monospecific immunotoxin activity. Orientation of the sFvs on the molecule had a significant effect on in vitro and in vivo properties. The bispecific immunotoxins were more effective than the monospecific immunotoxin in the flank tumor mouse model.
The synthesis of bispecific immunotoxin created a new biological agent with superior in vitro and in vivo activity (over monospecific immunotoxin), more broad reactivity, more efficacy against tumors in vivo, and diminished toxic effects in mice.
erbB2是Her2-neu基因的产物,是基于抗体的生物制剂已确立的治疗靶点,但抗erbB2抗体-毒素融合蛋白的活性有限。本研究的目的是确定在抗Her2单链抗体片段(sFv)免疫毒素中基因添加靶向上皮细胞粘附分子(EpCAM)的sFv是否会增强抗肿瘤活性。
进行了体外研究,将新型双特异性免疫毒素DTEpCAM23与单特异性免疫毒素(DTEpCAM和DT23)进行比较以定量免疫毒素活性。测试了单特异性免疫毒素的混合物以确定它们是否与双特异性免疫毒素一样有效。还进行了结合和内化研究。在体内,将双特异性免疫毒素经瘤内注射给予携带HT-29人结肠癌侧腹肿瘤的无胸腺裸鼠,并经腹腔注射给予患有腹腔内肿瘤的小鼠。
DTEpCAM23双特异性免疫毒素对大多数肿瘤细胞系显示出比单特异性免疫毒素高得多的活性(有时超过2000倍)。双特异性免疫毒素在针对不同癌细胞系的活性方面具有优越性和选择性。双特异性免疫毒素比单特异性免疫毒素具有更高的活性,表明在同一单链分子上同时具有两种sFv具有优势。结合和内化研究无法解释双特异性免疫毒素和单特异性免疫毒素活性之间的差异。sFv在分子上的方向对体外和体内特性有显著影响。在侧腹肿瘤小鼠模型中,双特异性免疫毒素比单特异性免疫毒素更有效。
双特异性免疫毒素的合成产生了一种新的生物制剂,其具有优于单特异性免疫毒素的体外和体内活性、更广泛的反应性、对体内肿瘤更高的疗效以及在小鼠中降低的毒性作用。
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