Department of Radiology, Duke University Medical Center, Durham, NC 27710, USA.
Department of Radiology, Duke University Medical Center, Durham, NC 27710, USA.
Nucl Med Biol. 2018 Jul-Aug;62-63:18-30. doi: 10.1016/j.nucmedbio.2018.05.002. Epub 2018 May 5.
Radiolabeled, low-molecular-weight prostate-specific membrane antigen (PSMA) inhibitors based on the Glu-ureido pharmacophore show promise for the detection and treatment of castration-resistant prostate cancer; however, high renal retention of activity, related in part to overexpression of PSMA in kidneys can be problematic. The goal of the current study was to investigate the use of brush border enzyme-cleavable linkers as a strategy for reducing kidney activity levels from radiolabeled PSMA inhibitors.
PSMA-769 (6), a derivative of the prototypical PSMA inhibitor (((S)‑1‑carboxy‑5‑(4‑iodobenzamido)pentyl)carbamoyl)glutamate (12) modified to contain a Gly-Tyr linker, and its protected tin precursor (11) were synthesized starting from the basic pharmacophore molecule Lys-urea-Glu. An analogue of 6 containing d‑tyrosine in lieu of l‑tyrosine (PSMA-769-d-tyrosine) and the corresponding tin precursor (d-11) also were synthesized. Both radioiodinated and At-labeled 6 were synthesized by radiohalogenation of 11 and deprotection in situ. Similarly, radioiodinated d-6 was synthesized from d-11. Paired label biodistribution of [I]12 and [I]6 was performed in normal mice and in SCID mice bearing both PC3 PIP (PSMA+) and PC3 flu (PSMA-) subcutaneous prostate carcinoma xenografts. The biodistribution of [I]6 and [At]6 was also evaluated in this tumor model. Biodistribution of the two radioiodinated diastereomers of 6 was evaluated in normal mice and urine samples were analyzed for the presence of 4‑iodohippuric acid.
Compounds [I]6 and [At]6 were synthesized from 11 in overall radiochemical yields of 32.5 ± 0.1% (n = 4) and 22% (n = 1), respectively; radiochemical purity was >95%. In normal mice, renal uptake of [I]6 was 1.4-, 2.8- and 161-fold lower than that seen for co-injected [I]12 at 1 h, 4 h and 21 h, respectively. In tumor-bearing mice, kidney uptake of [I]6 was similar to that for [I]12 (P > 0.05) at 1 h and 4 h but was 6- to 7-fold lower at 21 h; however, [I]6 uptake in PC3 PIP tumors was also lower than that seen for [I]12 at 21 h (12.6 ± 3.4%ID/g vs. 36.8 ± 12.4%ID/g). Uptake of [At]PSMA-769 in PC3 PIP tumors was slightly higher than that seen for [I]PSMA-769 at 4 h (9.6 ± 1.6%ID/g versus 7.8 ± 1.6%ID/g; P = 0.002); its uptake in a number of normal tissues also was higher. In normal mice, kidney uptake of [I]PSMA-769 at 4 h was about 73% of that seen for [I]PSMA-769-d-tyrosine. Activity in the urine of mice receiving [I]PSMA-769 contained mainly 4‑[I]iodohippuric acid while unmetabolized intact molecule was present in the case of [I]PSMA-769-d-tyrosine.
Use of this brush border enzyme-cleavable linker reduced kidney uptake and resulted in improved tumor:kidney uptake ratios. Although further structural improvements are needed, this linker approach might be useful as a component in strategies for reducing renal uptake of radiolabeled PSMA inhibitors.
基于 Glu-ureido 药效团的放射性标记、低分子量前列腺特异性膜抗原(PSMA)抑制剂在检测和治疗去势抵抗性前列腺癌方面具有很大的潜力;然而,由于 PSMA 在肾脏中的过度表达,导致其在肾脏中的活性保留较高,这可能是一个问题。本研究的目的是研究使用刷状边缘酶可切割连接子作为降低放射性标记 PSMA 抑制剂肾脏摄取水平的策略。
PSMA-769(6)是一种源自原型 PSMA 抑制剂((((S)-1-羧基-5-(4-碘苯甲酰胺基)戊基)氨甲酰基)谷氨酸(12)的衍生物,其中含有 Gly-Tyr 连接子,并合成了其保护的锡前体(11),从基本药效团分子 Lys-urea-Glu 开始。6 的一种含有 D-酪氨酸而非 L-酪氨酸的类似物(PSMA-769-D-酪氨酸)及其相应的锡前体(D-11)也被合成。通过 11 的放射性卤化和原位脱保护,分别合成了放射性碘标记和 At 标记的 6。在正常小鼠和同时携带 PC3 PIP(PSMA+)和 PC3 flu(PSMA-)皮下前列腺癌异种移植瘤的 SCID 小鼠中,进行了[I]12 和[I]6 的配对标记生物分布研究。还在该肿瘤模型中评估了[I]6 和[At]6 的生物分布。在正常小鼠中评估了两种放射性碘代 6 的非对映异构体的生物分布,并用尿液分析 4-碘马尿酸的存在。
化合物[I]6 和[At]6 分别从 11 中以 32.5±0.1%(n=4)和 22%(n=1)的总放射性化学产率合成;放射性纯度大于 95%。在正常小鼠中,[I]6 的肾脏摄取在 1 h、4 h 和 21 h 时分别比共注射的[I]12 低 1.4、2.8 和 161 倍。在荷瘤小鼠中,[I]6 的肾脏摄取在 1 h 和 4 h 时与[I]12 相似(P>0.05),但在 21 h 时低 6-7 倍;然而,[I]6 在 PC3 PIP 肿瘤中的摄取也低于[I]12 在 21 h 时的摄取(12.6±3.4%ID/g 比 36.8±12.4%ID/g)。[At]PSMA-769 在 PC3 PIP 肿瘤中的摄取略高于[I]PSMA-769 在 4 h 时的摄取(9.6±1.6%ID/g 比 7.8±1.6%ID/g;P=0.002);它在许多正常组织中的摄取也较高。在正常小鼠中,[I]PSMA-769 在 4 h 时的肾脏摄取约为[I]PSMA-769-D-酪氨酸的 73%。接受[I]PSMA-769 的小鼠尿液中的活性主要为 4-[I]碘马尿酸,而[I]PSMA-769-D-酪氨酸则存在未代谢的完整分子。
使用这种刷状边缘酶可切割连接子降低了肾脏摄取,并导致肿瘤:肾脏摄取比的改善。尽管还需要进一步的结构改进,但这种连接子方法可能是减少放射性标记 PSMA 抑制剂肾脏摄取的策略的一个有用组成部分。
