First-Generation Radiolabeled Cyclic Peptides for Molecular Imaging of Platelet-Derived Growth Factor Receptor α.

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-09-02 Epub Date: 2024-08-17 DOI:10.1021/acs.molpharmaceut.4c00549
Susan Pike, Melinda Wuest, Ana Lopez-Campistrous, Mi Yao Hu, Ratmir Derda, Frank Wuest, Todd McMullen
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Abstract

Occult nodal spread and metastatic disease require longstanding imaging and biochemical assessments for thyroid cancer, a disease that has a propensity for diffuse, small-volume disease. We have developed a 64Cu-labeled platelet-derived growth factor receptor α (PDGFRA) antibody for immuno-PET of PDGFRA in metastatic papillary thyroid cancer (PTC). The present work describes the discovery of small cyclic PDGFRA-targeting peptides, their binding features, and radiolabeling with positron emitter gallium-68 (68Ga) for in vitro and in vivo characterization in thyroid cancer models. Phage-display technology with two separate libraries and seven different cell lines was used through three rounds of biopanning as well as flow cytometry and comparative analysis with recombinant protein to select specific peptide sequences. Phenotypic binding analysis was completed by using phosphorylation and cell migration assays. In vitro protein binding was analyzed with thermophoresis and flow cytometry using the fluorescent-labeled PDGFRA peptide. Peptide candidates were modified with the NOTA chelator for radiolabeling with 68Ga. In vitro cell uptake was studied in various thyroid cancer cell lines. In vivo studies of 68Ga-labeled peptides included metabolic stability and PET imaging. From the original library (1013 compounds), five different peptide groups were identified based on biopanning experiments with and without the α subunit of PDGFR, leading to ∼50 peptides. Subsequent phenotypic screening revealed two core peptide sequences (CP16 and CP18) that demonstrated significant changes in the level of PDGFRA phosphorylation and cell migration. Alanine scan sublibraries were created from these two lead peptide sequences, and peptides were radiolabeled using 68Ga-GaCl3 at pH 4.5, resulting in RCP > 95% within 34-40 min, including SPE purification. Cyclic peptide CP18.5 showed the strongest effects on cell migration, flow cytometry, and binding by visual interference color assay. 68Ga-labeled PDGFRA-targeting peptides showed elevated cell and tumor uptake in models of thyroid cancer, with 68Ga-NOTA-CP18.5 being the lead candidate. However, metabolic stability in vivo was compromised for 68Ga-NOTA-CP18.5 vs 68Ga-NOTA-CP18 but without impacting tumor uptake or clearance profiles. First-generation radiolabeled cyclic peptides have been developed as novel radiotracers, particularly 68Ga-NOTA-CP18.5, for the molecular imaging of PDGFRA in thyroid cancer.

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用于血小板衍生生长因子受体 α 分子成像的第一代放射性标记环肽。
隐匿性结节扩散和转移性疾病需要对甲状腺癌进行长期的成像和生化评估,而甲状腺癌是一种倾向于弥漫性、小体积疾病的疾病。我们开发了一种 64Cu 标记的血小板衍生生长因子受体 α(PDGFRA)抗体,用于转移性甲状腺乳头状癌(PTC)中 PDGFRA 的免疫 PET。本研究介绍了小型环状 PDGFRA 靶向肽的发现、其结合特征以及正电子发射体镓-68(68Ga)的放射性标记,用于甲状腺癌模型的体外和体内表征。通过三轮生物平移、流式细胞术以及与重组蛋白的比较分析,利用噬菌体展示技术,从两个独立的文库和七个不同的细胞系中筛选出特定的肽序列。利用磷酸化和细胞迁移试验完成了表型结合分析。使用荧光标记的 PDGFRA 多肽,通过热泳和流式细胞仪分析了体外蛋白质结合情况。候选多肽经 NOTA 螯合剂修饰后可进行 68Ga 放射性标记。研究了各种甲状腺癌细胞系的体外细胞摄取情况。68Ga 标记多肽的体内研究包括代谢稳定性和 PET 成像。从最初的化合物库(1013 个化合物)中,根据与 PDGFR α 亚基和不与 PDGFR α 亚基的生物平移实验,确定了五个不同的肽组,从而得到了 50 个肽。随后的表型筛选发现了两个核心肽序列(CP16 和 CP18),它们在 PDGFRA 磷酸化水平和细胞迁移方面表现出显著的变化。根据这两个前导肽序列创建了丙氨酸扫描子库,并在 pH 值为 4.5 时使用 68Ga-GaCl3 对肽进行放射性标记,结果在 34-40 分钟内 RCP > 95%,包括 SPE 纯化。环肽 CP18.5 对细胞迁移、流式细胞仪和视觉干扰颜色测定法的结合显示出最强的作用。68Ga 标记的 PDGFRA 靶向肽在甲状腺癌模型中显示出较高的细胞和肿瘤摄取率,68Ga-NOTA-CP18.5 是主要候选肽。然而,与 68Ga-NOTA-CP18 相比,68Ga-NOTA-CP18.5 在体内的代谢稳定性受到影响,但不会影响肿瘤摄取或清除情况。第一代放射性标记环肽(尤其是 68Ga-NOTA-CP18.5)已被开发为新型放射性示踪剂,用于甲状腺癌 PDGFRA 的分子成像。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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