In vivo stable 211At-labeled prostate-specific membrane antigen-targeted tracer using a neopentyl glycol structure

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR

EJNMMI Radiopharmacy and Chemistry Pub Date : 2024-06-17 DOI:10.1186/s41181-024-00278-8

Hiroyuki Suzuki, Kento Kannaka, Mizuki Hirayama, Tomoki Yamashita, Yuta Kaizuka, Ryota Kobayashi, Takahiro Yasuda, Kazuhiro Takahashi, Tomoya Uehara

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引用次数: 0

Abstract

Background

Prostate cancer is a common cancer among men worldwide that has a very poor prognosis, especially when it progresses to metastatic castration-resistant prostate cancer (mCRPC). Therefore, novel therapeutic agents for mCRPC are urgently required. Because prostate-specific membrane antigen (PSMA) is overexpressed in mCRPC, targeted alpha therapy (TAT) for PSMA is a promising treatment for mCRPC. Astatine-211 (²¹¹At) is a versatile α-emitting radionuclide that can be produced using a cyclotron. Therefore, ²¹¹At-labeled PSMA compounds could be useful for TAT; however, ²¹¹At-labeled compounds are unstable against deastatination in vivo. In this study, to develop in vivo stable ²¹¹At-labeled PSMA derivatives, we designed and synthesized ²¹¹At-labeled PSMA derivatives using a neopentyl glycol (NpG) structure that can stably retain ²¹¹At in vivo. We also evaluated their biodistribution in normal and tumor-bearing mice.

Results

We designed and synthesized ²¹¹At-labeled PSMA derivatives containing two glutamic acid (Glu) linkers between the NpG structure and asymmetric urea (NpG-L-PSMA ((L-Glu)₂ linker used) and NpG-D-PSMA ((D-Glu)₂ linker used)). First, we evaluated the characteristics of ¹²⁵I-labeled NpG derivatives because ¹²⁵I was readily available. [¹²⁵I]I-NpG-L-PSMA and [¹²⁵I]I-NpG-D-PSMA showed low accumulation in the stomach and thyroid, indicating their high in vivo stability against deiodination. [¹²⁵I]I-NpG-L-PSMA was excreted in urine as hydrophilic radiometabolites in addition to the intact form. Meanwhile, [¹²⁵I]I-NpG-D-PSMA was excreted in urine in an intact form. In both cases, no radioactivity was observed in the free iodine fraction. [¹²⁵I]I-NpG-D-PSMA showed higher tumor accumulation than [¹²⁵I]I-NpG-L-PSMA. We then developed ²¹¹At-labeled PSMA using the NpG-D-PSMA structure. [²¹¹At]At-NpG-D-PSMA showed low accumulation in the stomach and thyroid in normal mice, indicating its high stability against deastatination in vivo. Moreover, [²¹¹At]At-NpG-D-PSMA showed high accumulation in tumor similar to that of [¹²⁵I]I-NpG-D-PSMA.

Conclusions

[²¹¹At]At-NpG-D-PSMA showed high in vivo stability against deastatination and high tumor accumulation. [²¹¹At]At-NpG-D-PSMA should be considered as a potential new TAT for mCRPC.

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使用新戊二醇结构的体内稳定 211At 标记前列腺特异性膜抗原靶向示踪剂。

背景：前列腺癌是全球常见的男性癌症，预后极差，尤其是当它发展为转移性耐受性前列腺癌（mCRPC）时。因此，迫切需要针对mCRPC的新型治疗药物。由于前列腺特异性膜抗原（PSMA）在mCRPC中过度表达，针对PSMA的靶向α疗法（TAT）是治疗mCRPC的一种很有前景的方法。砹-211（211At）是一种多功能α发射放射性核素，可通过回旋加速器生产。因此，211At标记的PSMA化合物可用于TAT；然而，211At标记的化合物在体内不稳定，易发生脱稳。在本研究中，为了开发体内稳定的 211At 标记 PSMA 衍生物，我们设计并合成了采用新戊二醇（NpG）结构的 211At 标记 PSMA 衍生物，它们能在体内稳定地保留 211At。我们还评估了它们在正常小鼠和肿瘤小鼠体内的生物分布：我们设计并合成了 211At 标记的 PSMA 衍生物，这些衍生物在 NpG 结构和不对称脲之间含有两个谷氨酸（Glu）连接体（NpG-L-PSMA（使用（L-Glu）2 连接体）和 NpG-D-PSMA（使用（D-Glu）2 连接体））。首先，我们评估了 125I 标记的 NpG 衍生物的特性，因为 125I 很容易获得。[125I]I-NpG-L-PSMA和[125I]I-NpG-D-PSMA在胃和甲状腺中的蓄积较低，表明它们在体内对脱碘具有很高的稳定性。除了完整的形式外，[125I]I-NpG-L-PSMA 还以亲水性放射性代谢物的形式从尿液中排出。同时，[125I]I-NpG-D-PSMA 以完整的形式从尿液中排出。在这两种情况下，游离碘部分均未观察到放射性。与[125I]I-NpG-L-PSMA相比，[125I]I-NpG-D-PSMA显示出更高的肿瘤蓄积性。随后，我们利用 NpG-D-PSMA 结构开发了 211At 标记的 PSMA。[211At]At-NpG-D-PSMA在正常小鼠的胃和甲状腺中的蓄积量较低，这表明它在体内具有很高的稳定性，不会发生脱落。此外，[211At]At-NpG-D-PSMA 在肿瘤中的高积累与[125I]I-NpG-D-PSMA 相似：结论：[211At]At-NpG-D-PSMA 在体内表现出高度的稳定性，可防止脱落，并在肿瘤中大量蓄积。[211At]At-NpG-D-PSMA应被视为治疗mCRPC的潜在新TAT。

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来源期刊

EJNMMI Radiopharmacy and Chemistry Multiple-

CiteScore

7.20

自引率

8.70%

发文量

审稿时长

5 weeks