新型 PET 探针 18F-BCPP-EF 和 18F-BCPP-BF 用于检测线粒体复合物 I:与 18F-BMS-747158-02 在大鼠脑中的 PET 研究比较。
Novel PET probes 18F-BCPP-EF and 18F-BCPP-BF for mitochondrial complex I: a PET study in comparison with 18F-BMS-747158-02 in rat brain.
机构信息
Central Research Laboratory, Hamamatsu Photonics K.K., Hamamatsu, Shizuoka, Japan.
出版信息
J Nucl Med. 2014 Mar;55(3):473-80. doi: 10.2967/jnumed.113.125328. Epub 2014 Jan 27.
UNLABELLED
We developed novel PET probes, 2-tert-butyl-4-chloro-5-{6-[2-(2-(18)F-fluoroethoxy)-ethoxy]-pyridin-3-ylmethoxy}-2H-pyridazin-3-one ((18)F-BCPP-EF) and 2-tert-butyl-4-chloro-5-[6-(4-(18)F-fluorobutoxy)-pyridin-3-ylmethoxy]-2H-pyridazin-3-one ((18)F-BCPP-BF), for quantitative imaging of mitochondrial complex I (MC-I) activity in the brain and preliminarily evaluated their properties in comparison with (18)F-BMS-747158-02 ((18)F-BMS).
METHODS
The affinity of (18)F-BCPP-EF, (18)F-BCPP-BF, and (18)F-BMS to MC-I was analyzed using in vitro binding assays with (3)H-dihydrorotenone and bovine cardiomyocyte submitochondrial particles. (18)F-BCPP-EF, (18)F-BCPP-BF, or (18)F-BMS was intravenously injected into rats, and the uptake (standardized uptake value) in each organ was determined by dissection method. The effects of rotenone, a specific MC-I inhibitor, on the uptake of each probe were assessed by whole-body PET imaging in rats. Ischemic brain model rats were imaged using (18)F-BCPP-EF.
RESULTS
The rank order of affinity to MC-I was (18)F-BCPP-BF > (18)F-BMS > (18)F-BCPP-EF. The uptake of (18)F-BCPP-EF and (18)F-BMS was high in the heart, intermediate in brain, and low in muscle and bone 60 min after the injection. (18)F-BCPP-BF provided increasing bone uptake with time after the injection. The uptake of (18)F-BCPP-EF and (18)F-BMS into the brain and heart was significantly decreased by preadministration of rotenone; however, the reduction degree of (18)F-BCPP-EF was more pronounced than that of (18)F-BMS. Rotenone did not affect (18)F-BCPP-BF uptake in either the brain or the heart. (18)F-BCPP-EF imaged the cortical ischemic neuronal damage without any disturbance by microglial activation even on day 7 when (18)F-FDG showed high uptake in the damaged area.
CONCLUSION
The present study demonstrated that (18)F-BCPP-EF could be a potential PET probe for quantitative imaging of MC-I activity and its ischemic damage in the living brain with PET.
目的
我们开发了新型的 PET 探针 2-叔丁基-4-氯-5-{6-[2-(2-(18)F-氟乙氧基)乙氧基]-吡啶-3-基甲氧基}-2H-哒嗪-3-酮((18)F-BCPP-EF)和 2-叔丁基-4-氯-5-[6-(4-(18)F-氟丁氧基)-吡啶-3-基甲氧基]-2H-哒嗪-3-酮((18)F-BCPP-BF),用于定量成像脑内的线粒体复合物 I(MC-I)活性,并初步评估了它们与(18)F-BMS-747158-02 ((18)F-BMS)的性质。
方法
通过用(3)H-二氢鱼藤酮和牛心肌亚线粒体颗粒进行体外结合测定,分析(18)F-BCPP-EF、(18)F-BCPP-BF 和(18)F-BMS 与 MC-I 的亲和力。将(18)F-BCPP-EF、(18)F-BCPP-BF 或(18)F-BMS 静脉注射到大鼠体内,通过解剖法确定各器官的摄取量(标准化摄取值)。通过在大鼠的全身 PET 成像评估鱼藤酮(一种特异性 MC-I 抑制剂)对每种探针摄取的影响。使用(18)F-BCPP-EF 对缺血性脑模型大鼠进行成像。
结果
MC-I 亲和力的排序为(18)F-BCPP-BF > (18)F-BMS > (18)F-BCPP-EF。注射后 60 分钟,(18)F-BCPP-EF 和(18)F-BMS 在心脏中的摄取量较高,在脑、肌肉和骨骼中的摄取量中等。(18)F-BCPP-BF 随时间推移骨摄取增加。预先给予鱼藤酮后,(18)F-BCPP-EF 和(18)F-BMS 进入脑和心脏的摄取明显减少;然而,(18)F-BCPP-EF 的减少程度比(18)F-BMS 更明显。鱼藤酮对脑或心脏中的(18)F-BCPP-BF 摄取没有影响。即使在(18)F-FDG 在受损区域高摄取的第 7 天,(18)F-BCPP-EF 也能对皮质缺血性神经元损伤进行成像,而不会被小胶质细胞激活所干扰。
结论
本研究表明,(18)F-BCPP-EF 可能是一种潜在的 PET 探针,可用于活体脑内 MC-I 活性及其缺血性损伤的定量成像。
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