Kenanova Vania, Olafsen Tove, Crow Desiree M, Sundaresan Gobalakrishnan, Subbarayan Murugesan, Carter Nora H, Ikle David N, Yazaki Paul J, Chatziioannou Arion F, Gambhir Sanjiv S, Williams Lawrence E, Shively John E, Colcher David, Raubitschek Andrew A, Wu Anna M
Division of Molecular Biology, Beckman Research Institute of the City of Hope, Duarte, CA, USA.
Cancer Res. 2005 Jan 15;65(2):622-31.
Antibody fragments are recognized as promising vehicles for delivery of imaging and therapeutic agents to tumor sites in vivo. The serum persistence of IgG1 and fragments with intact Fc region is controlled by the protective neonatal Fc receptor (FcRn) receptor. To modulate the half-life of engineered antibodies, we have mutated the Fc-FcRn binding site of chimeric anti-carcinoembryonic antigen (CEA) antibodies produced in a single-chain Fv-Fc format. The anti-CEA T84.66 single-chain Fv-Fc format wild-type and five mutants (I253A, H310A, H435Q, H435R, and H310A/H435Q, Kabat numbering system) expressed well in mammalian cell culture. After purification and characterization, effective in vitro antigen binding was shown by competition ELISA. Biodistribution studies in BALB/c mice using (125)I- and (131)I-labeled fragments revealed blood clearance rates from slowest to fastest as follows: wild-type > H435R > H435Q > I253A > H310A > H310A/H435Q. The terminal half-lives of the mutants ranged from 83.4 to 7.96 hours, whereas that of the wild-type was approximately 12 days. Additionally, (124)I-labeled wild-type, H435Q, I253A, H310A, and H310A/H435Q variants were evaluated in LS174T xenografted athymic mice by small animal positron emission tomography imaging, revealing localization to the CEA-positive xenografts. The slow clearing wild-type and H435Q constructs required longer to localize to the tumor and clear from the circulation. The I253A and H310A fragments showed intermediate behavior, whereas the H310A/H435Q variant quickly localized to the tumor site, rapidly cleared from the animal circulation and produced clear images. Thus, attenuating the Fc-FcRn interaction provides a way of controlling the antibody fragment serum half-life without compromising expression and tumor targeting.
抗体片段被认为是将成像和治疗剂递送至体内肿瘤部位的有前景的载体。IgG1和具有完整Fc区域的片段在血清中的持久性由保护性新生儿Fc受体(FcRn)控制。为了调节工程抗体的半衰期,我们对以单链Fv-Fc形式产生的嵌合抗癌胚抗原(CEA)抗体的Fc-FcRn结合位点进行了突变。抗CEA T84.66单链Fv-Fc形式的野生型和五个突变体(I253A、H310A、H435Q、H435R以及H310A/H435Q,采用Kabat编号系统)在哺乳动物细胞培养中表达良好。经过纯化和表征后,竞争ELISA显示其在体外具有有效的抗原结合能力。使用(125)I和(131)I标记的片段在BALB/c小鼠中进行的生物分布研究表明,血液清除率从最慢到最快依次为:野生型>H435R>H435Q>I253A>H310A>H310A/H435Q。突变体的终末半衰期在83.4至7.96小时之间,而野生型的终末半衰期约为12天。此外,通过小动物正电子发射断层扫描成像在LS174T异种移植无胸腺小鼠中评估了(124)I标记的野生型、H435Q、I253A、H310A和H310A/H435Q变体,结果显示它们定位于CEA阳性异种移植瘤。清除缓慢的野生型和H435Q构建体需要更长时间定位于肿瘤并从循环中清除。I253A和H310A片段表现出中等行为,而H310A/H435Q变体迅速定位于肿瘤部位,迅速从动物循环中清除并产生清晰的图像。因此,减弱Fc-FcRn相互作用提供了一种控制抗体片段血清半衰期的方法,而不会影响其表达和肿瘤靶向性。