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通过 ()-4-(3-[F]氟丙基)-L-谷氨酸 PET 成像评估系统 x 活性的肿瘤氧化还原状态。

Assessment of Tumor Redox Status through ()-4-(3-[F]fluoropropyl)-L-Glutamic Acid PET Imaging of System x Activity.

机构信息

Centre for Advanced Biomedical Imaging, Division of Medicine, University College London, London, United Kingdom.

Institute of Nuclear Medicine and Department of Chemistry, University College London, London, United Kingdom.

出版信息

Cancer Res. 2019 Feb 15;79(4):853-863. doi: 10.1158/0008-5472.CAN-18-2634. Epub 2018 Nov 6.

DOI:10.1158/0008-5472.CAN-18-2634
PMID:30401715
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6379064/
Abstract

The cell's endogenous antioxidant system is vital to maintenance of redox homeostasis. Despite its central role in normal and pathophysiology, no noninvasive tools exist to measure this system in patients. The cystine/glutamate antiporter system x maintains the balance between intracellular reactive oxygen species and antioxidant production through the provision of cystine, a key precursor in glutathione biosynthesis. Here, we show that tumor cell retention of a system x -specific PET radiotracer, ()-4-(3-[F]fluoropropyl)-L-glutamic acid ([F]FSPG), decreases in proportion to levels of oxidative stress following treatment with a range of redox-active compounds. The decrease in [F]FSPG retention correlated with a depletion of intracellular cystine resulting from increased glutathione biosynthesis, shown through [U-C, U-N]cystine isotopic tracing. , treatment with the chemotherapeutic doxorubicin decreased [F]FSPG tumor uptake in a mouse model of ovarian cancer, coinciding with markers of oxidative stress but preceding tumor shrinkage and decreased glucose utilization. Having already been used in pilot clinical trials, [F]FSPG PET could be rapidly translated to the clinic as an early redox indicator of tumor response to treatment. SIGNIFICANCE: [F]FSPG PET imaging provides a sensitive noninvasive measure of tumor redox status and provides an early marker of tumor response to therapy..

摘要

细胞内源性抗氧化系统对于维持氧化还原稳态至关重要。尽管它在正常和病理生理学中起着核心作用,但目前还没有非侵入性的工具可以在患者中测量这个系统。胱氨酸/谷氨酸反向转运蛋白系统 x 通过提供半胱氨酸来维持细胞内活性氧和抗氧化剂产生之间的平衡,半胱氨酸是谷胱甘肽生物合成的关键前体。在这里,我们表明,肿瘤细胞对一种系统 x 特异性 PET 放射性示踪剂 ([F]FSPG) 的保留,随着氧化应激水平的升高而降低,这些肿瘤细胞经过一系列氧化还原活性化合物处理。[F]FSPG 保留的减少与细胞内半胱氨酸的耗竭相关,这是由于谷胱甘肽生物合成增加导致的,这可以通过 [U-C,U-N] 半胱氨酸同位素示踪来证明。 ,用化疗药物阿霉素治疗会降低卵巢癌小鼠模型中 [F]FSPG 的肿瘤摄取,这与氧化应激标志物一致,但先于肿瘤缩小和葡萄糖利用减少。[F]FSPG PET 已经在临床试验中得到了应用,它可以作为肿瘤对治疗反应的早期氧化还原指标,快速转化为临床应用。 意义:[F]FSPG PET 成像提供了一种敏感的非侵入性肿瘤氧化还原状态测量方法,并提供了肿瘤对治疗反应的早期标志物。

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[F]FSPG-PET provides an early marker of radiotherapy response in head and neck squamous cell cancer.[F]FSPG-PET为头颈部鳞状细胞癌放疗反应提供了一个早期标志物。
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