Yuping Xu1,2, Lizhen Wang1, Donghui Pan1, Chunjing Yu3, Baoming Mi3, Qianhuan Huang2, Jie Sheng2, Junjie Yan1, Xinyu Wang1, Runlin Yang1, Min Yang1,2. 1. Key Laboratory of Nuclear Medicine, Ministry of Health, Jiangsu Key Laboratory of Molecular Nuclear Medicine, Jiangsu Institute of Nuclear Medicine, Wuxi, Jiangsu, 214063, China. 2. Department of Radiopharmaceuticals, School of Pharmacy, Nanjing Medical University, Nanjing, Jiangsu, 210029, China. 3. Department of Nuclear Medicine, Affiliated Hospital of Jiangnan University, Wuxi No. 4 People's Hospital, Wuxi, 214062, China.
Abstract
OBJECTIVE: Overexpression of human epidermal growth factor receptor-2 (HER2) in breast cancers provides promising opportunities for imaging and targeted therapy. Developing HER2 targeted positron emission tomography (PET) probes might be benefit for management of the disease. Small high-affinity scaffold proteins, affibodies, are ideal vectors for imaging HER2 overexpressed tumors. Despite of the initial success on development of 18F labeled ZHER2:342 affibody, the tedious synthesis producers, low yields and unfavorable pharmacokinetics may hinder the clinical use. 68Ga is an attractive positron emitter for PET imaging. A simple preparation of 68Ga labeled ZHER2:342 analog, 68Ga-NOTA-MAL-Cys-MZHER2:342, was reported in the study. The in vivo performances of the tracer for assessing HER2 status in breast cancers were also evaluated. METHODS: NOTA-MAL conjugated Cys-MZHER2:342 was radiolabeled with 68Ga. The probe was evaluated by in vitro tests including stability and cell binding studies in breast cancer cells with different HER2 levels. In vivo evaluation was performed in mice bearing tumors using microPET imaging and biodistribution experiments. A PET/CT imaging study was initially performed in patients with breast cancers. RESULTS: The tracer was synthesized in a straightforward chelation method with satisfactory non-decay corrected yield (81±5%) and radiochemical purity (>95%). In vivo micro-PET imaging showed that HER2 high levels expressed BT474 xenografts were more clear visualized than HER2 low levels expressed MCF-7 tumors (16.12 ± 2.69 ID%/g vs 1.32 ± 0.19 ID%/g at 1 h post-injection). The outcome was consistent with the immunohistochemical analysis. No significant radioactivity was accumulated in healthy tissues (less than 2% ID/g) except kidneys. In a preliminary clinical study, 68Ga-NOTA-MAL-Cys-MZHER2:342 PET imaging allowed more high-contrast detection of HER2 positive primary tumors (maximum standardized uptake value = 2.16±0.27) than those in HER2 negative primary focus (maximum standardized uptake value = 0.32±0.05). No detectable side-effects were found. CONCLUSION: In summary, this study indicates the significant efficiency of the 68Ga labeled HER2 affibody. Preclinical and clinical studies support the possibility of monitoring HER2 levels in breast cancers using 68Ga-NOTA-MAL-Cys-MZHER2:342. ADVANCES IN KNOWLEDGE: The research investigated the feasibility of a 68Ga labeled HER2 affibody modified with a hydrophilic linker for breast cancer PET imaging. Favorable outcomes showed that the probe might be valuable for determining HER2 status of the disease.
OBJECTIVE: Overexpression of human epidermal growth factor receptor-2 (HER2) in breast cancers provides promising opportunities for imaging and targeted therapy. Developing HER2 targeted positron emission tomography (PET) probes might be benefit for management of the disease. Small high-affinity scaffold proteins, affibodies, are ideal vectors for imaging HER2 overexpressed tumors. Despite of the initial success on development of 18F labeled ZHER2:342 affibody, the tedious synthesis producers, low yields and unfavorable pharmacokinetics may hinder the clinical use. 68Ga is an attractive positron emitter for PET imaging. A simple preparation of 68Ga labeled ZHER2:342 analog, 68Ga-NOTA-MAL-Cys-MZHER2:342, was reported in the study. The in vivo performances of the tracer for assessing HER2 status in breast cancers were also evaluated. METHODS: NOTA-MAL conjugated Cys-MZHER2:342 was radiolabeled with 68Ga. The probe was evaluated by in vitro tests including stability and cell binding studies in breast cancer cells with different HER2 levels. In vivo evaluation was performed in mice bearing tumors using microPET imaging and biodistribution experiments. A PET/CT imaging study was initially performed in patients with breast cancers. RESULTS: The tracer was synthesized in a straightforward chelation method with satisfactory non-decay corrected yield (81±5%) and radiochemical purity (>95%). In vivo micro-PET imaging showed that HER2 high levels expressed BT474 xenografts were more clear visualized than HER2 low levels expressed MCF-7 tumors (16.12 ± 2.69 ID%/g vs 1.32 ± 0.19 ID%/g at 1 h post-injection). The outcome was consistent with the immunohistochemical analysis. No significant radioactivity was accumulated in healthy tissues (less than 2% ID/g) except kidneys. In a preliminary clinical study, 68Ga-NOTA-MAL-Cys-MZHER2:342 PET imaging allowed more high-contrast detection of HER2 positive primary tumors (maximum standardized uptake value = 2.16±0.27) than those in HER2 negative primary focus (maximum standardized uptake value = 0.32±0.05). No detectable side-effects were found. CONCLUSION: In summary, this study indicates the significant efficiency of the 68Ga labeled HER2 affibody. Preclinical and clinical studies support the possibility of monitoring HER2 levels in breast cancers using 68Ga-NOTA-MAL-Cys-MZHER2:342. ADVANCES IN KNOWLEDGE: The research investigated the feasibility of a 68Ga labeled HER2 affibody modified with a hydrophilic linker for breast cancer PET imaging. Favorable outcomes showed that the probe might be valuable for determining HER2 status of the disease.
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