基于RM2的胃泌素释放肽受体(GRPR)配体中Gln-Trp位点修饰的影响研究。
Studies on the impact of modifications at the Gln-Trp site in RM2-based GRPR ligands.
作者信息
Fischer Sebastian, Koller Lena, Dominelli Sandra, Beck Roswitha, Wester Hans-Jürgen, Günther Thomas
机构信息
TUM School of Natural Sciences, Department of Chemistry, Chair of Pharmaceutical Radiochemistry, Technical University of Munich, 85748, Garching, Germany.
Department of Radiology, School of Medicine, Molecular Imaging Program at Stanford (MIPS), Stanford University, Stanford, CA, 94305, USA.
出版信息
EJNMMI Res. 2025 Sep 1;15(1):114. doi: 10.1186/s13550-025-01241-7.
BACKGROUND
One of the most studied, and preclinically as well as clinically applied gastrin-releasing peptide receptor (GRPR) ligands represents the antagonist RM2 (DOTA-Pip-D-Phe-Gln-Trp-Ala-Val-Gly-His-Sta-Leu-NH). As an improved in vivo stability was observed for a RM2 analog comprising the unnatural amino acid α-methyl-L-tryptophan instead of L-Trp, we aimed to elucidate the impact of other unnatural amino acids (homoserine [Hse], β-(3-benzothienyl)alanine [Bta]) at the metabolically less stable Gln-Trp site. Furthermore, we conjugated either DOTA, NOTA or NODAGA to the RM2 peptide and its modified derivatives, and evaluated each analog preclinically using Ga and Cu, as well as Lu (only DOTA-comprising compounds).
RESULTS
GRPR affinity and lipophilicity of RM2 derivatives were in a range of 1.2-8.4 nM and - 2.9 to - 1.1 (Ga-labeled), 1.7-33.0 nM and - 2.4 to - 1.6 (Cu-labeled), as well as 3.0-19.7 nM and - 3.2 to - 1.8 (Lu-labeled), respectively. Both, [Lu]Lu-[Hse]RM2 and [Lu]Lu-[Bta]RM2 revealed distinctly lower in vivo stability (< 20% intact at 15 min post-injection) than [Lu]Lu-[α-Me-Trp]RM2 (= [Lu]Lu-AMTG) and [Lu]Lu-RM2 (> 30% intact at 30 min post-injection). Both [Ga]Ga-RM2 and [Ga]Ga-AMTG exhibited high tumor (~ 15 percentage injected dose per gram, %ID/g) and pancreas uptake (> 25%ID/g), whereas [Ga]Ga-[Hse]RM2 and [Ga]Ga-[Bta]RM2 revealed lower tumor (~ 7.5%ID/g) but also substantially lower pancreas uptake (< 8%ID/g) at 1 h post-injection. At 24 h post-injection (p.i.), [Lu]Lu-RM2 and [Lu]Lu-AMTG exhibited high (> 8% ID/g) while [Lu]Lu-[Hse]RM2 and [Lu]Lu-[Bta]RM2 displayed low tumor retention (~ 2%ID/g). All compounds showed low activity levels in the pancreas at 24 h post-injection (< 1%ID/g).
CONCLUSION
Substitution of the Gln-Trp site in RM2 by artificial amino acids had a distinct impact on overall pharmacokinetics. While Hse (instead of Gln) and Bta (instead of Trp) led to a decreased, α-Me-Trp (instead of Trp) led to an increased in vivo stability, which resulted in improved pharmacokinetics over time in case of the latter. However, at 1 h post-injection both [Ga]Ga-[Hse]RM2 and [Ga]Ga-[Bta]RM2 displayed slightly higher tumor-to-pancreas and tumor-to-intestine ratios, rendering homoserine and β-(3-benzothienyl)alanine potential options for the modification of GRPR ligands with regard to imaging properties.
背景
胃泌素释放肽受体(GRPR)配体中研究最多且已在临床前及临床应用的一种是拮抗剂RM2(DOTA - Pip - D - Phe - Gln - Trp - Ala - Val - Gly - His - Sta - Leu - NH)。由于观察到一种包含非天然氨基酸α - 甲基 - L - 色氨酸而非L - 色氨酸的RM2类似物在体内稳定性有所提高,我们旨在阐明在代谢稳定性较低的Gln - Trp位点引入其他非天然氨基酸(高丝氨酸 [Hse]、β - (3 - 苯并噻吩基)丙氨酸 [Bta])的影响。此外,我们将DOTA、NOTA或NODAGA与RM2肽及其修饰衍生物进行偶联,并使用镓、铜以及镥(仅含DOTA的化合物)对每种类似物进行临床前评估。
结果
RM2衍生物的GRPR亲和力和亲脂性范围分别为1.2 - 8.4 nM和 - 2.9至 - 1.1(镓标记)、1.7 - 33.0 nM和 - 2.4至 - 1.6(铜标记)以及3.0 - 19.7 nM和 - 3.2至 - 1.8(镥标记)。[镥]镥 - [Hse]RM2和[镥]镥 - [Bta]RM2在体内的稳定性均明显低于[镥]镥 - [α - Me - Trp]RM2(= [镥]镥 - AMTG)和[镥]镥 - RM2(注射后30分钟时完整率> 30%)(注射后15分钟时完整率< 20%)。[镓]镓 - RM2和[镓]镓 - AMTG在肿瘤(每克注射剂量的15%,%ID/g)和胰腺摄取方面均表现出较高水平(> 25%ID/g),而[镓]镓 - [Hse]RM2和[镓]镓 - [Bta]RM2在注射后1小时时肿瘤摄取较低( 7.5%ID/g)且胰腺摄取也显著较低(< 8%ID/g)。注射后24小时(p.i.),[镥]镥 - RM2和[镥]镥 - AMTG肿瘤滞留率较高(> 8% ID/g),而[镥]镥 - [Hse]RM2和[镥]镥 - [Bta]RM2肿瘤滞留率较低(~ 2%ID/g)。所有化合物在注射后24小时时胰腺中的活性水平均较低(< 1%ID/g)。
结论
用人工氨基酸取代RM2中的Gln - Trp位点对整体药代动力学有显著影响。虽然Hse(取代Gln)和Bta(取代Trp)导致体内稳定性降低,但α - Me - Trp(取代Trp)导致体内稳定性增加,就后者而言,随着时间推移药代动力学得到改善。然而,在注射后第1小时,[镓]镓 - [Hse]RM2和[镓]镓 - [Bta]RM2的肿瘤与胰腺以及肿瘤与肠道的比值均略高,这使得高丝氨酸和β - (3 - 苯并噻吩基)丙氨酸在GRPR配体成像特性修饰方面成为潜在选择方案。
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