Logan Jean, Wang Gene-jack, Telang Frank, Fowler Joanna S, Alexoff David, Zabroski John, Jayne Millard, Hubbard Barbara, King Payton, Carter Pauline, Shea Colleen, Xu Youwen, Muench Lisa, Schlyer David, Learned-Coughlin Susan, Cosson Valerie, Volkow Nora D, Ding Yu-Shin
Medical Department, Brookhaven National Laboratory, Upton, NY 11973, USA.
Nucl Med Biol. 2007 Aug;34(6):667-79. doi: 10.1016/j.nucmedbio.2007.03.013. Epub 2007 Jun 8.
Results from human studies with the PET radiotracer (S,S)-[(11)C]O-methyl reboxetine ((11)C-MRB), a ligand targeting the norepinephrine transporter (NET), are reported. Quantification methods were determined from test/retest studies, and sensitivity to pharmacological blockade was tested with different doses of atomoxetine (ATX), a drug that binds to the NET with high affinity (K(i)=2-5 nM).
Twenty-four male subjects were divided into different groups for serial 90-min PET studies with (11)C-MRB to assess reproducibility and the effect of blocking with different doses of ATX (25, 50 and 100 mg, po). Region-of-interest uptake data and arterial plasma input were analyzed for the distribution volume (DV). Images were normalized to a template, and average parametric images for each group were formed.
(11)C-MRB uptake was highest in the thalamus (THL) and the midbrain (MBR) [containing the locus coeruleus (LC)] and lowest for the caudate nucleus (CDT). The CDT, a region with low NET, showed the smallest change on ATX treatment and was used as a reference region for the DV ratio (DVR). The baseline average DVR was 1.48 for both the THL and MBR with lower values for other regions [cerebellum (CB), 1.09; cingulate gyrus (CNG) 1.07]. However, more accurate information about relative densities came from the blocking studies. MBR exhibited greater blocking than THL, indicating a transporter density approximately 40% greater than THL. No relationship was found between DVR change and plasma ATX level. Although the higher dose tended to induce a greater decrease than the lower dose for MBR (average decrease for 25 mg=24+/-7%; 100 mg=31+/-11%), these differences were not significant. The different blocking between MBR (average decrease=28+/-10%) and THL (average decrease=17+/-10%) given the same baseline DVR indicates that the CDT is not a good measure for non-NET binding in both regions. Threshold analysis of the difference between the average baseline DV image and the average blocked image showed the expected NET distribution with the MBR (LC) and hypothalamus>THL>CNG and CB, as well as a significant change in the supplementary motor area. DVR reproducibility for the different brain regions was approximately 10%, but intersubject variability was large.
The highest density of NETs was found in the MBR where the LC is located, followed by THL, whereas the lowest density was found in basal ganglia (lowest in CDT), consistent with the regional localization of NETs in the nonhuman primate brain. While all three doses of ATX were found to block most regions, no significant differences between doses were found for any region, although the average percent change across subjects of the MBR did correlate with ATX dose. The lack of a dose effect could reflect a low signal-to-noise ratio coupled with the possibility that a sufficient number of transporters were blocked at the lowest dose and further differences could not be detected. However, since the lowest (25 mg) dose is less than the therapeutic doses used in children for the treatment of attention-deficit/hyperactivity disorder ( approximately 1.0 mg/kg/day), this would suggest that there may be additional targets for ATX's therapeutic actions.
报告了使用正电子发射断层扫描(PET)放射性示踪剂(S,S)-[(11)C]O-甲基瑞波西汀((11)C-MRB)进行人体研究的结果,(11)C-MRB是一种靶向去甲肾上腺素转运体(NET)的配体。通过重测研究确定了定量方法,并用不同剂量的托莫西汀(ATX)测试了对药理学阻断的敏感性,托莫西汀是一种与NET具有高亲和力(K(i)=2 - 5 nM)的药物。
24名男性受试者被分为不同组,使用(11)C-MRB进行连续90分钟的PET研究,以评估重现性以及不同剂量ATX(25、50和100 mg,口服)阻断的效果。分析感兴趣区域的摄取数据和动脉血浆输入以获得分布容积(DV)。图像被归一化到一个模板,并为每组形成平均参数图像。
(11)C-MRB在丘脑(THL)和中脑(MBR)[包含蓝斑(LC)]中的摄取最高,在尾状核(CDT)中最低。CDT是一个NET含量低的区域,在ATX治疗中变化最小,被用作DV比值(DVR)的参考区域。THL和MBR的基线平均DVR均为1.48,其他区域[小脑(CB),1.09;扣带回(CNG)1.07]的值较低。然而,关于相对密度的更准确信息来自阻断研究。MBR表现出比THL更大的阻断,表明转运体密度比THL大约高40%。未发现DVR变化与血浆ATX水平之间的关系。尽管较高剂量倾向于比较低剂量在MBR中诱导更大的降低(25 mg的平均降低 = 24±7%;100 mg = 31±11%),但这些差异不显著。在相同基线DVR的情况下,MBR(平均降低 = 28±10%)和THL(平均降低 = 17±10%)之间的不同阻断表明,CDT不是这两个区域中非NET结合的良好测量指标。对平均基线DV图像和平均阻断图像之间差异的阈值分析显示了预期的NET分布,MBR(LC)和下丘脑>THL>CNG和CB,以及辅助运动区有显著变化。不同脑区的DVR重现性约为10%,但个体间变异性很大。
在LC所在的MBR中发现NET密度最高,其次是THL,而在基底神经节中密度最低(在CDT中最低),这与NET在非人灵长类动物脑中的区域定位一致。虽然发现所有三种剂量的ATX都能阻断大多数区域,但在任何区域中剂量之间均未发现显著差异,尽管MBR受试者的平均百分比变化与ATX剂量相关。缺乏剂量效应可能反映了低信噪比,以及在最低剂量下可能已经阻断了足够数量的转运体,无法检测到进一步的差异。然而,由于最低(25 mg)剂量低于儿童用于治疗注意力缺陷/多动障碍的治疗剂量(约1.0 mg/kg/天),这表明ATX的治疗作用可能还有其他靶点。
