SPECT/CT imaging of EGFR-positive head and neck squamous cell carcinoma patient-derived xenografts with 203Pb-PSC-panitumumab in NRG mice

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR EJNMMI Radiopharmacy and Chemistry Pub Date : 2024-11-26 DOI:10.1186/s41181-024-00313-8

Nasim Sarrami, Bryce Nelson, Samantha Leier, John Wilson, Conrad Chan, Jalna Meens, Teesha Komal, Laurie Ailles, Melinda Wuest, Michael Schultz, Afsaneh Lavasanifar, Raymond M. Reilly, Frank Wuest

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Abstract

Background

The objective of this research was the development and evaluation of ²⁰³Pb-labelled panitumumab (²⁰³Pb-PSC-panitumumab) as an immuno-SPECT radioligand for the detection of EGFR + head and neck squamous cell carcinoma (HNSCC) in a patient-derived xenograft (PDX) mouse model. The 51.9 h physical half-life and favourable γ-emission (279 keV; 81%) of ²⁰³Pb offer an excellent opportunity for developing immuno-SPECT radioligands. Moreover, ²⁰³Pb has a complementary therapeutic radionuclide (²¹²Pb), making ²⁰³Pb and ²¹²Pb an ideal matched radiotheranostic pair.

Results

Radiolabeling of panitumumab was performed at a pH of 5.0 and room temperature for 5–10 min with [²⁰³Pb]Pb(OAc)₂, and the incorporation efficiency was determined using radio-TLC. ²⁰³Pb-PSC-panitumumab (~ 10 MBq, 140 μl of saline) was injected into the tail vein of NRG mice bearing subcutaneous (s.c.) HNSCC patient-derived xenografts (PDX). SPECT/CT images were acquired at 48 and 120 h post-injection. For biodistribution studies, mice were euthanized five days after ²⁰³Pb-panitumumab injection. The tumour and normal tissues were collected and weighed, and uptake of ²⁰³Pb was measured in a γ-counter. The uptake was calculated as the percent injected dose per gram of each tissue (ID%/g). Blocking experiments were performed by pretreating a group of mice (n = 5) with 1 mg of panitumumab 1 h before administering ²⁰³Pb-PSC-panitumumab. 4–5 chelators of a new lead-specific chelator (PSC) were attached per antibody; radiolabeling efficiency was 99.2 ± 0.7%. The isolated radiochemical yield of ²⁰³Pb-PSC-panitumumab was 41.4 ± 8% (n = 5), and the molar activity was 1.2 ± 0.35 GB/mg. SPECT imaging and biodistribution confirmed high accumulation and retention of ²⁰³Pb-PSC-panitumumab in the tumour (26% ID/g) at 120 h post-injection (p.i.), which could be reduced to 6.2%ID/g at 120 h p.i. by predosing with panitumumab (1 mg) confirming EGFR specificity of ²⁰³Pb-PSC-panitumumab uptake.

Conclusions

Panitumumab was successfully and reproducibly labelled with ²⁰³Pb in high radiochemical purity using the chelator PSC-NCS. ²⁰³Pb-PSC-panitumumab was specifically accumulated and retained in EGFR + tumours in NRG mice with s.c. HNSCC PDX. ²⁰³Pb-PSC-panitumumab is a suitable immuno-SPECT radioligand for imaging EGFR + tumours and has great potential for combining with ²¹²Pb-PSC-panitumumab in a radiotheranostic strategy for imaging and treating HNSCC.

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在 NRG 小鼠中使用 203Pb-PSC-panitumumab 对表皮生长因子受体阳性头颈部鳞状细胞癌患者衍生异种移植物进行 SPECT/CT 成像分析

背景这项研究的目的是开发和评估 203Pb 标记的帕尼单抗（203Pb-PSC-panitumumab），作为一种免疫-SPECT 放射配体，用于在患者异种移植（PDX）小鼠模型中检测表皮生长因子受体（EGFR）+头颈部鳞状细胞癌（HNSCC）。203Pb 具有 51.9 h 的物理半衰期和良好的 γ 发射（279 keV；81%），这为开发免疫-SPECT 放射性配体提供了绝佳的机会。此外，203Pb 还有一个互补的治疗放射性核素（212Pb），这使得 203Pb 和 212Pb 成为一对理想的放射治疗配体。结果在 pH 值为 5.0 和室温条件下，用 [203Pb]Pb(OAc)2 对帕尼单抗进行 5-10 分钟的放射标记，并用放射性-TLC 测定掺入效率。将 203Pb-PSC-panitumumab （约 10 MBq，140 μl 生理盐水）注射到携带皮下 (s.c.) HNSCC 患者衍生异种移植物 (PDX) 的 NRG 小鼠尾静脉中。注射后 48 小时和 120 小时采集 SPECT/CT 图像。在生物分布研究中，小鼠在注射 203Pb-panitumumab 五天后安乐死。收集肿瘤和正常组织并称重，用γ计数器测量203Pb的摄取量。摄取量以每克组织的注射剂量百分比（ID%/g）计算。阻断实验是在给一组小鼠（n = 5）注射 203Pb-PSC-panitumumab 前 1 小时用 1 毫克帕尼单抗进行预处理。每个抗体附着 4-5 个新型铅特异性螯合剂（PSC）；放射性标记效率为 99.2 ± 0.7%。203Pb-PSC-panitumumab 的分离放射化学收率为 41.4 ± 8%（n = 5），摩尔活性为 1.2 ± 0.35 GB/mg。SPECT 成像和生物分布证实，注射后 120 小时，203Pb-PSC-帕尼单抗在肿瘤中的蓄积和保留率很高（26%ID/g）。结论使用螯合剂 PSC-NCS 成功地用 203Pb 标记了高放射化学纯度的帕尼单抗，且重复性好。203Pb-PSC-panitumumab 在 NRG 小鼠的表皮生长因子受体（EGFR）+肿瘤中特异性蓄积并保留在 HNSCC PDX 中。203Pb-PSC-帕尼单抗是一种适用于表皮生长因子受体（EGFR）+肿瘤成像的免疫SPECT放射性配体，与212Pb-PSC-帕尼单抗结合用于HNSCC成像和治疗的放射治疗策略潜力巨大。

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