用于选择性成像脑内热休克蛋白 90α/β 同工型的新型 PET 探针。

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Takayuki Sakai, Aya Ogata, Hiroshi Ikenuma, Takashi Yamada, Saori Hattori, Junichiro Abe, Shinichi Imamura, Masanori Ichise, Mari Tada, Akiyoshi Kakita, Hiroko Koyama, Masaaki Suzuki, Takashi Kato, Kengo Ito, Yasuyuki Kimura
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引用次数: 0

摘要

背景:热休克蛋白(HSPs)存在于整个大脑中。它们的功能是分子伴侣,即帮助大型蛋白质复合物的折叠和展开。这些伴侣在阿尔茨海默病和路易体病等神经病理学疾病的发展过程中至关重要,而 HSP90(一种特定的 HSP 亚型)则发挥着关键作用。许多研究表明,抑制 HSP90 活性的药物对神经退行性疾病有益处。因此,HSP90 PET 成像配体可有效用于研究神经退行性疾病中的 HSP90。在四种 HSP90 同工酶中,两种细胞膜同工酶(HSP90α 和 HSP90β)被认为参与了与神经退行性疾病相关的蛋白质的结构平衡。目前,还没有有用的 PET 成像配体可选择性地靶向 HSP90 的两种细胞异构体:在这项研究中,我们通过 11C 放射标记(一种半衰期为 20.4 分钟的正电子发射体)6-氯-9-[(4-甲氧基-3,5-二甲基吡啶-2-基)甲基]-9H-嘌呤-2-胺(BIIB021),开发了一种新型正电子发射断层扫描(PET)成像配体 [11C]BIIB021。[11C]BIIB021的合成产率、摩尔活性和放射化学纯度都很高。[11C]BIIB021 与大鼠脑匀浆以及人类重组 HSP90α 和 HSP90β 蛋白具有很高的结合亲和力。在大鼠脑中能很好地检测到放射性(SUV 1.4)。在健康大鼠的 PET 成像以及健康大鼠和人脑切片的自动放射成像中,它显示出明显的特异性结合。在大脑中检测到了放射性代谢物,然而,使用双输入图形模型可以很好地量化总分布容积。抑制 p-糖蛋白会增加脑部放射性浓度。结论:我们研制出了一种新的 PET 成像剂:我们研制出了一种新的 PET 成像剂 [11C]BIIB021,专门靶向 HSP90α/β。我们成功合成了 [11C]BIIB021 并在体外和体内对 HSP90α/β 进行了成像。然而,由于大脑中存在放射性代谢物,而且 HSP90α/β 可能是 p-糖蛋白的底物,因此 HSP90α/β 的定量分析非常复杂。需要进一步努力开发适合 HSP90α/β 成像的放射性配体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel PET probe to selectively image heat shock protein 90α/β isoforms in the brain

Background

Heat shock proteins (HSPs) are present throughout the brain. They function as molecular chaperones, meaning they help with the folding and unfolding of large protein complexes. These chaperones are vital in the development of neuropathological conditions such as Alzheimer’s disease and Lewy body disease, with HSP90, a specific subtype of HSP, playing a key role. Many studies have shown that drugs that inhibit HSP90 activity have beneficial effects in the neurodegenerative diseases. Therefore, HSP90 PET imaging ligand can be used effectively to study HSP90 in neurodegenerative diseases. Among four HSP90 isoforms, two cytosolic isoforms (HSP90α and HSP90β) thought to be involved in the structural homeostasis of the proteins related to the neurodegenerative diseases. Currently, no useful PET imaging ligands selectively targeting the two cytosolic isoforms of HSP90 have been available yet.

Results

In this study, we developed a novel positron emission tomography (PET) imaging ligand, [11C]BIIB021, by 11C-radiolabeling (a positron emitter with a half-life of 20.4 min) 6-Chloro-9-[(4-methoxy-3,5-dimethylpyridin-2-yl)methyl]-9H-purin-2-amine (BIIB021), an inhibitor with a high affinity for and selectivity to HSP90α and HSP90β. [11C]BIIB021 was synthesized with a high yield, molar activity and radiochemical purity. [11C]BIIB021 showed a high binding affinity for rat brain homogenate as well as human recombinant HSP90α and HSP90β proteins. Radioactivity was well detected in the rat brain (SUV 1.4). It showed clear specific binding in PET imaging of healthy rats and autoradiography of healthy rat and human brain sections. Radiometabolite was detected in the brain, however, total distribution volume was well quantified using dual-input graphical model. Inhibition of p-glycoprotein increased brain radioactivity concentrations. However, total distribution volume values with and without p-glycoprotein inhibition were nearly the same.

Conclusions

We have developed a new PET imaging agent, [11C]BIIB021, specifically targeting HSP90α/β. We have been successful in synthesizing [11C]BIIB021 and in vitro and in vivo imaging HSP90α/β. However, the quantification of HSP90α/β is complicated by the presence of radiometabolites in the brain and the potential to be a substrate for p-glycoprotein. Further efforts are needed to develop radioligand suitable for imaging of HSP90α/β.

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CiteScore
7.20
自引率
8.70%
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