[11C]PS13显示出与人脑中环氧化酶-1的药理选择性和实质性结合。

Nafiseh Ghazanfari, Jeih-San Liow, Min-Jeong Kim, Raven Cureton, Adrian Lee, Carson Knoer, Madeline Jenkins, Jinsoo Hong, Jose A Montero Santamaria, H Umesha Shetty, Anthony Galassi, Paul Wighton, Martin Nørgaard, Douglas N Greve, Sami S Zoghbi, Victor W Pike, Robert B Innis, Paolo Zanotti-Fregonara
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引用次数: 0

摘要

我们实验室最近开发了[11C]PS13,作为一种 PET 放射配体,用于选择性地测量环氧化酶-1(COX-1)。环氧化酶家族将花生四烯酸转化为前列腺素和血栓素,从而介导炎症。大脑对[11C]PS13的总摄取量由特异性结合和本底摄取两部分组成,可通过区室模型的金标准方法进行精确量化。本研究试图利用基线时和 COX-1 选择性抑制剂酮洛芬阻断后的动脉输入功能扫描,量化健康人脑中 [11C]PS13 与 COX-1 的特异性结合。方法:八名健康志愿者分别在基线和口服酮洛芬(75 毫克)约 2 小时后接受了两次 90 分钟的[11C]PS13 PET 扫描,扫描时动脉输入功能经过放射性计量石校正。结果:双组织分区模型有效地确定了大脑对放射性的总摄取量(分布体积),显示海马、枕叶皮层和中央沟岸的密度最高。所有脑区都表现出可置换的特异性结合,因此没有一个脑区可用作参照区。酮洛芬阻断了整个大脑中约 84% 的 COX-1 结合位点。在推断完全占据后,[11C]PS13 的全脑平均特异性吸收值为 1.6 ± 0.8 mL-cm-3,本底吸收值为 1.7 ± 0.6 mL-cm-3,特异性与本底比率为 1.1 ± 0.5。海马区的比值最高,为 2.7 ± 0.9。结论[11C]PS13与人脑中的COX-1具有高度特异性结合,但其定量需要动脉血采样。
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[11C]PS13 Demonstrates Pharmacologically Selective and Substantial Binding to Cyclooxygenase-1 in the Human Brain.

Our laboratory recently developed [11C]PS13 as a PET radioligand to selectively measure cyclooxygenase-1 (COX-1). The cyclooxygenase enzyme family converts arachidonic acid into prostaglandins and thromboxanes, which mediate inflammation. The total brain uptake of [11C]PS13, which is composed of both specific binding and background uptake, can be accurately quantified with gold standard methods of compartmental modeling. This study sought to quantify the specific binding of [11C]PS13 to COX-1 in healthy human brain using scans performed with arterial input function at baseline and after blockade by the COX-1-selective inhibitor ketoprofen. Methods: Eight healthy volunteers underwent two 90-min [11C]PS13 PET scans with radiometabolite-corrected arterial input function, at baseline and about 2 h after oral administration of ketoprofen (75 mg). Results: Two-tissue compartment modeling effectively identified the total uptake of radioactivity in the brain (as distribution volume), showing the highest densities in the hippocampus, the occipital cortex, and the banks of the central sulcus. All brain regions exhibited displaceable and specific binding, and thus none could be used as a reference region. Ketoprofen blocked approximately 84% of the binding sites on COX-1 in the whole brain. After full occupancy was extrapolated, the average whole-brain values of [11C]PS13 were 1.6 ± 0.8 mL·cm-3 for specific uptake, 1.7 ± 0.6 mL·cm-3 for background uptake, and 1.1 ± 0.5 for the specific-to-background ratio. The hippocampus had the highest specific-to-background ratio value of 2.7 ± 0.9. Conclusion: [11C]PS13 exhibited high specific binding to COX-1 in the human brain, but its quantification requires arterial blood sampling.

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