使用 N,N-二乙基-2-(2-(4-(2-18F-氟乙氧基)苯基)-5,7-二甲基吡唑并[1,5-a]嘧啶-3-基)乙酰胺对胶质瘤中 TSPO 表达的定量临床前成像。
Quantitative preclinical imaging of TSPO expression in glioma using N,N-diethyl-2-(2-(4-(2-18F-fluoroethoxy)phenyl)-5,7-dimethylpyrazolo[1,5-a]pyrimidin-3-yl)acetamide.
机构信息
Vanderbilt University Institute of Imaging Science, Vanderbilt University Medical Center, Nashville, TN, USA.
出版信息
J Nucl Med. 2012 Feb;53(2):287-94. doi: 10.2967/jnumed.111.095653. Epub 2012 Jan 17.
UNLABELLED
There is a critical need to develop and rigorously validate molecular imaging biomarkers to aid diagnosis and characterization of primary brain tumors. Elevated expression of translocator protein (TSPO) has been shown to predict disease progression and aggressive, invasive behavior in a variety of solid tumors. Thus, noninvasive molecular imaging of TSPO expression could form the basis of a novel, predictive cancer imaging biomarker. In quantitative preclinical PET studies, we evaluated a high-affinity pyrazolopyrimidinyl-based TSPO imaging ligand, N,N-diethyl-2-(2-(4-(2-(18)F-fluoroethoxy)phenyl)-5,7-dimethylpyrazolo[1,5-a]pyrimidin-3-yl)acetamide ((18)F-DPA-714), as a translational probe for quantification of TSPO levels in glioma.
METHODS
Glioma-bearing rats were imaged with (18)F-DPA-714 in a small-animal PET system. Dynamic images were acquired simultaneously on injection of (18)F-DPA-714 (130-200 MBq/0.2 mL). Blood was collected to derive the arterial input function (AIF), with high-performance liquid chromatography radiometabolite analysis performed on selected samples for AIF correction. Compartmental modeling was performed using the corrected AIF. Specific tumor cell binding of DPA-714 was evaluated by radioligand displacement of (3)H-PK 11195 with DPA-714 in vitro and displacement of (18)F-DPA-714 with an excess of DPA-714 in vivo. Immediately after imaging, tumor and healthy brain tissues were harvested for validation by Western blotting and immunohistochemistry.
RESULTS
(18)F-DPA-714 was found to preferentially accumulate in tumors, with modest uptake in the contralateral brain. Infusion with DPA-714 (10 mg/kg) displaced (18)F-DPA-714 binding by greater than 60% on average. Tumor uptake of (18)F-DPA-714 was similar to another high-affinity TSPO imaging ligand, (18)F-N-fluoroacetyl-N-(2,5-dimethoxybenzyl)-2-phenoxyaniline, and agreed with ex vivo assay of TSPO levels in tumor and healthy brain.
CONCLUSION
These studies illustrate the feasibility of using (18)F-DPA-714 for visualization of TSPO-expressing brain tumors. Importantly, (18)F-DPA-714 appears suitable for quantitative assay of tumor TSPO levels in vivo. Given the relationship between elevated TSPO levels and poor outcome in oncology, these studies suggest the potential of (18)F-DPA-714 PET to serve as a novel predictive cancer imaging modality.
目的
开发和严格验证分子成像生物标志物,以辅助原发性脑肿瘤的诊断和特征描述,这一点至关重要。已经表明,转位蛋白(TSPO)的高表达可预测多种实体瘤的疾病进展和侵袭性行为。因此,TSPO 表达的非侵入性分子成像可以作为一种新的、预测性的癌症成像生物标志物的基础。在定量的临床前 PET 研究中,我们评估了一种高亲和力的吡唑并嘧啶基 TSPO 成像配体,N,N-二乙基-2-(2-(4-(2-(18)F-氟乙氧基)苯基)-5,7-二甲基吡唑并[1,5-a]嘧啶-3-基)乙酰胺((18)F-DPA-714),作为用于定量胶质瘤中 TSPO 水平的转化探针。
方法
使用小动物 PET 系统对携带脑肿瘤的大鼠进行(18)F-DPA-714 成像。在(18)F-DPA-714 注射时同时采集动态图像(130-200 MBq/0.2 mL)。采集血液以获得动脉输入函数(AIF),并对选定样本进行高效液相色谱放射性代谢产物分析以进行 AIF 校正。使用校正后的 AIF 进行房室模型分析。通过(3)H-PK 11195 在体外与 DPA-714 的放射性配体置换和体内与过量 DPA-714 的(18)F-DPA-714 置换来评估 DPA-714 对肿瘤细胞的特异性结合。成像后立即收获肿瘤和健康脑组织,通过 Western blot 和免疫组织化学进行验证。
结果
发现(18)F-DPA-714 优先在肿瘤中积聚,在对侧大脑中有适度摄取。平均而言,输注 DPA-714(10 mg/kg)可使(18)F-DPA-714 的结合置换超过 60%。(18)F-DPA-714 在肿瘤中的摄取与另一种高亲和力的 TSPO 成像配体(18)F-N-氟乙酰基-N-(2,5-二甲氧基苄基)-2-苯氧基苯胺相似,并与肿瘤和健康脑组织中 TSPO 水平的离体测定一致。
结论
这些研究说明了使用(18)F-DPA-714 可视化表达 TSPO 的脑肿瘤的可行性。重要的是,(18)F-DPA-714 似乎适合体内定量检测肿瘤 TSPO 水平。鉴于 TSPO 水平升高与肿瘤学不良预后之间的关系,这些研究表明(18)F-DPA-714 PET 有可能成为一种新的预测性癌症成像方式。
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