对苯并吲哚啉部分带有磺酸基和羧酸基的吲哚菁绿衍生物用于基于抗体的肿瘤成像的评估。
Evaluation of Indocyanine Green Derivatives with Sulfonic Acid and Carboxylic Acid Groups at the Benzoindolenine Moiety for Antibody-Based Tumor Imaging.
作者信息
Nakajima Kohei, Maeta Hirotaka, Takakura Hideo, Tsuchiya Koki, Ohira Takayuki, Ogawa Mikako
机构信息
Laboratory of Bioanalysis and Molecular Imaging, Graduate School of Pharmaceutical Sciences, Hokkaido University, Sapporo, Hokkaido, 060-0812, Japan.
Institute for Chemical Reaction Design and Discovery (WPI-ICReDD), Hokkaido University, Sapporo, Hokkaido, 001-0021, Japan.
出版信息
Mol Imaging Biol. 2025 Aug 12. doi: 10.1007/s11307-025-02041-0.
PURPOSE
In target-specific cancer imaging, antibodies and their fragments are conjugated with fluorescent dyes to work as targeting molecules. We have recently developed indocyanine green (ICG) derivatives with anionic functional groups at the benzoindolenine moiety. When the ICG derivatives are used for antibody-based imaging, the chemical characteristics of the conjugated dyes may influence the pharmacokinetics of the targeting molecules. Therefore, in this study, we evaluated the in vivo pharmacokinetics of IgG and Fab conjugated with the ICG derivatives bearing anionic functional groups.
PROCEDURES
A linker for conjugation was introduced into the methine chain of ICG and ICG derivatives possessing sulfonic acid (SC-Cy) or carboxylic acid (CC-Cy) groups at the benzoindolenine moiety. ICG, SC-Cy, or CC-Cy was conjugated with IgG, innate trastuzumab, and its Fab fragment. To evaluate the pharmacokinetics of these IgG-dyes and Fab-dyes, in vivo fluorescence imaging was performed in tumor-bearing mice at 0.25-96 h after intravenous administration of the imaging agents.
RESULTS
The three IgG-dyes exhibited similar pharmacokinetics and tumor accumulation profiles post injection. Thus, the differences in the dye's chemical properties had minimal influence when the ICG derivatives were conjugated with IgG. In contrast, the pharmacokinetics and tumor accumulation profiles of the Fab-dyes were remarkably different. While Fab-SC-Cy exhibited high accumulation in the kidney but no accumulation in the tumors, Fab-CC-Cy showed higher tumor accumulation. This could be attributed to the excessively high negative charge density in the benzoindolenine moiety of SC-Cy, which influenced the excretion route of the Fab fragment.
CONCLUSIONS
The IgG conjugated with SC-Cy or CC-Cy dyes exhibited favorable pharmacokinetics profiles. In contrast, Fab-CC-Cy demonstrated superior performance in tumor imaging compared to Fab-SC-Cy. Our findings suggest that introducing anionic functional groups into the benzoindolenine moiety of ICG could lead to the development of near-infrared dyes that could be useful in antibody-based tumor imaging.
目的
在靶向特异性癌症成像中,抗体及其片段与荧光染料偶联以作为靶向分子发挥作用。我们最近开发了在苯并吲哚啉部分带有阴离子官能团的吲哚菁绿(ICG)衍生物。当将ICG衍生物用于基于抗体的成像时,偶联染料的化学特性可能会影响靶向分子的药代动力学。因此,在本研究中,我们评估了与带有阴离子官能团的ICG衍生物偶联的IgG和Fab的体内药代动力学。
程序
将用于偶联的连接子引入到ICG的次甲基链以及在苯并吲哚啉部分具有磺酸(SC-Cy)或羧酸(CC-Cy)基团的ICG衍生物中。将ICG、SC-Cy或CC-Cy与IgG、天然曲妥珠单抗及其Fab片段偶联。为了评估这些IgG-染料和Fab-染料的药代动力学,在静脉注射成像剂后0.25 - 96小时,对荷瘤小鼠进行体内荧光成像。
结果
三种IgG-染料在注射后表现出相似的药代动力学和肿瘤蓄积曲线。因此,当ICG衍生物与IgG偶联时,染料化学性质的差异影响极小。相比之下,Fab-染料的药代动力学和肿瘤蓄积曲线明显不同。虽然Fab-SC-Cy在肾脏中蓄积较高但在肿瘤中无蓄积,而Fab-CC-Cy显示出更高的肿瘤蓄积。这可能归因于SC-Cy的苯并吲哚啉部分过高的负电荷密度,其影响了Fab片段的排泄途径。
结论
与SC-Cy或CC-Cy染料偶联的IgG表现出良好的药代动力学曲线。相比之下,Fab-CC-Cy在肿瘤成像中表现出优于Fab-SC-Cy的性能。我们的研究结果表明,在ICG的苯并吲哚啉部分引入阴离子官能团可能会导致开发出可用于基于抗体的肿瘤成像的近红外染料。
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