Immuno-PET Imaging of CD93 Expression with 64Cu-Radiolabeled NOTA-mCD93 ([64Cu]Cu-NOTA-mCD93) and Insulin-Like Growth Factor Binding Protein 7 ([64Cu]Cu-NOTA-IGFBP7).

IF 4.5 2区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Molecular Pharmaceutics Pub Date : 2024-11-12 DOI:10.1021/acs.molpharmaceut.4c00983
Xiaoyan Li, Wenyu Song, Jonathan W Engle, Jason C Mixdorf, Todd E Barnhart, Yi Sun, Yuwen Zhu, Weibo Cai
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引用次数: 0

Abstract

CD93 is overexpressed in multiple solid tumor types, serving as a novel target for antiangiogenic therapy. The goal of this study was to develop a 64Cu-based positron emission tomography (PET) tracer for noninvasive imaging of CD93 expression. Antimouse-CD93 mAb (mCD93) and the CD93 ligand IGFBP7 were conjugated to a bifunctional chelator, p-isothiocyanatobenzyl-1,4,7-triazacyclononane-1,4,7-triacetic acid (p-SCN-NOTA) and labeled with 64Cu. To evaluate the pharmacokinetic properties and tumor-targeting efficacy of [64Cu]Cu-NOTA-mCD93 and [64Cu]Cu-NOTA-IGFBP7, PET imaging and biodistribution were performed on both 4T1 murine breast tumor-bearing mice and MDA-MB-231 human breast tumor-bearing mice. The tumor model HT1080-FAP, which does not overexpress CD93, was used as a negative control. Fluorescent immunostaining was conducted on different tissues to correlate radiotracer uptake with CD93 expression. 64Cu-labeling was achieved with high yield and specific activity. Serial PET imaging revealed that the in vivo performance of [64Cu]Cu-NOTA-IGFBP7 was superior to that of [64Cu]Cu-NOTA-mCD93, and that the tracer [64Cu]Cu-NOTA-IGFBP7 exhibited elevated tumor uptake values and excellent tumor retention in MDA-MB-231 mice, rather than in 4T1 murine mice. The MDA-MB-231 tumor uptake of [64Cu]Cu-NOTA-IGFBP7 was 2.85 ± 0.15, 3.69 ± 0.60, 6.91 ± 0.88, and 6.35 ± 0.55%ID/g at 1, 4, 24, and 48 h p.i., respectively, which were significantly higher than that in the CD93-negative HT1080-FAP tumor (0.73 ± 0.15, 0.97 ± 0.31, 1.00 ± 0.07, and 1.02 ± 0.11%ID/g, respectively). The significant difference between positive and negative tumors indicated [64Cu]Cu-NOTA-IGFBP7 was specifically binding to CD93. Biodistribution data as measured by gamma counting were consistent with the PET analysis. Ex vivo histology further confirmed the high CD93 expression on MDA-MB-231 tumor tissues. Herein, we prepared two novel radiotracers, [64Cu]Cu-NOTA-mCD93 and [64Cu]Cu-NOTA-IGFBP7, for the first immune-PET imaging of CD93 expression. Our results suggest that [64Cu]Cu-NOTA-IGFBP7 is a more potential radiotracer for visualizing angiogenesis due to its sensitive, persistent, and CD93-specific characteristics.

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用 64Cu 放射标记的 NOTA-mCD93 ([64Cu]Cu-NOTA-mCD93)和胰岛素样生长因子结合蛋白 7 ([64Cu]Cu-NOTA-IGFBP7)对 CD93 表达进行免疫 PET 成像。
CD93 在多种实体瘤中过度表达,是抗血管生成治疗的新靶点。本研究的目的是开发一种基于 64Cu 的正电子发射断层扫描(PET)示踪剂,用于 CD93 表达的无创成像。抗鼠 CD93 mAb(mCD93)和 CD93 配体 IGFBP7 与双功能螯合剂对异硫氰基苄基-1,4,7-三氮杂环壬烷-1,4,7-三乙酸(p-SCN-NOTA)共轭,并用 64Cu 标记。为了评估[64Cu]Cu-NOTA-mCD93和[64Cu]Cu-NOTA-IGFBP7的药代动力学特性和肿瘤靶向疗效,我们对4T1小鼠乳腺肿瘤小鼠和MDA-MB-231人类乳腺肿瘤小鼠进行了PET成像和生物分布研究。不过度表达 CD93 的肿瘤模型 HT1080-FAP 被用作阴性对照。对不同的组织进行荧光免疫染色,以便将放射性示踪剂的摄取与 CD93 的表达联系起来。64Cu 标记具有高产率和特异性。连续 PET 成像显示,[64Cu]Cu-NOTA-IGFBP7 的体内表现优于[64Cu]Cu-NOTA-mCD93。在 1、4、24 和 48 h p.i. 时,MDA-MB-231 对 [64Cu]Cu-NOTA-IGFBP7 的肿瘤摄取率分别为 2.85 ± 0.15、3.69 ± 0.60、6.91 ± 0.88 和 6.35 ± 0.55%ID/g、分别为 0.73 ± 0.15、0.97 ± 0.31、1.00 ± 0.07 和 1.02 ± 0.11%ID/g),明显高于 CD93 阴性的 HT1080-FAP 肿瘤。阳性和阴性肿瘤之间的明显差异表明[64Cu]Cu-NOTA-IGFBP7与CD93具有特异性结合。伽马计数测定的生物分布数据与 PET 分析结果一致。体内外组织学进一步证实了 CD93 在 MDA-MB-231 肿瘤组织中的高表达。在此,我们制备了[64Cu]Cu-NOTA-mCD93和[64Cu]Cu-NOTA-IGFBP7这两种新型放射性同位素,首次用于CD93表达的免疫PET成像。我们的研究结果表明,[64Cu]Cu-NOTA-IGFBP7具有灵敏、持久和CD93特异性等特点,是一种更有潜力用于观察血管生成的放射性示踪剂。
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来源期刊
Molecular Pharmaceutics
Molecular Pharmaceutics 医学-药学
CiteScore
8.00
自引率
6.10%
发文量
391
审稿时长
2 months
期刊介绍: Molecular Pharmaceutics publishes the results of original research that contributes significantly to the molecular mechanistic understanding of drug delivery and drug delivery systems. The journal encourages contributions describing research at the interface of drug discovery and drug development. Scientific areas within the scope of the journal include physical and pharmaceutical chemistry, biochemistry and biophysics, molecular and cellular biology, and polymer and materials science as they relate to drug and drug delivery system efficacy. Mechanistic Drug Delivery and Drug Targeting research on modulating activity and efficacy of a drug or drug product is within the scope of Molecular Pharmaceutics. Theoretical and experimental peer-reviewed research articles, communications, reviews, and perspectives are welcomed.
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