Mapanao Ana Katrina, Busslinger Sarah D, Mehta Avni, Kegler Kristel, Favaretto Chiara, Grundler Pascal V, Talip Zeynep, Köster Ulli, Johnston Karl, Schibli Roger, van der Meulen Nicholas P, Müller Cristina
Center for Radiopharmaceutical Sciences, PSI Center for Life Sciences, Villigen-PSI, 5232, Switzerland.
AnaPath Services GmbH, Liestal, 4410, Switzerland.
Eur J Nucl Med Mol Imaging. 2025 Mar;52(4):1383-1398. doi: 10.1007/s00259-024-07035-8. Epub 2025 Jan 2.
Terbium-149 is a short-lived α-particle emitter, potentially useful for tumor-targeted therapy. The aim of this study was to investigate terbium-149 in combination with the somatostatin receptor (SSTR) agonist DOTATATE and the SSTR antagonist DOTA-LM3. The radiopeptides were evaluated to compare their therapeutic efficacy in vitro and in vivo.
Terbium-149 was produced at ISOLDE/CERN and chemically purified at the Paul Scherrer Institute. Radiolabeling of somatostatin analogues with [Tb]TbCl was performed under standard labeling conditions at pH 4.5. Cell viability (MTT) and survival assays (colony forming) assays were performed after 16-18 h exposure of SSTR-positive AR42J rat pancreatic tumor cells to various activity concentrations of [Tb]Tb-DOTATATE and [Tb]Tb-DOTA-LM3. DNA double-strand breaks were determined using immunofluorescence imaging of γ-H2A.X and 53BP1. Therapy studies were performed with AR42J tumor-bearing mice injected with 1 × 5 MBq or 2 × 5 MBq of the respective radiopeptide. The tolerability of up to 40 MBq [Tb]Tb-DOTATATE or 40 MBq [Tb]Tb-DOTA-LM3 was assessed with regard to undesired effects to the bone marrow and kidneys in immunocompetent mice without tumors.
The radiolabeling of peptides was achieved at molar activities of up to 20 MBq/nmol at ≥ 98% radiochemical purity. AR42J cell viability was reduced in an activity-dependent manner, with [Tb]Tb-DOTA-LM3 being slightly more potent than [Tb]Tb-DOTATATE (EC: 0.5 vs. 1.2 kBq/mL). Both radiopeptides induced a similar number of γ-H2A.X and 53BP1 foci per nuclei, which indicated DNA damage in AR42J tumor cells. Injection of tumor-bearing mice with 1 × 5 MBq radiopeptide resulted in median survival times of 16.5 days and 19 days for [Tb]Tb-DOTATATE and [Tb]Tb-DOTA-LM3, respectively, as compared to only 8 days for untreated control mice. Application of 2 × 5 MBq of the radiopeptides further extended the median survival times to 30 days and 29 days, respectively. The blood cell counts and values for blood plasma biomarkers of treated mice without tumors were similar to those of untreated controls. Renal accumulation of [Tc]Tc-DMSA was similar in all mice, indicating normal kidney function.
Tb-based radiopeptides effectively reduced the viability of tumor cells in vitro as well as the tumor growth in mice without causing relevant adverse events, irrespective of whether the SSTR agonist or antagonist was employed. These data encourage further preclinical application of terbium-149 to evaluate its potential in combination with other tumor-targeting agents.
铽 - 149是一种短寿命的α粒子发射体,可能对肿瘤靶向治疗有用。本研究的目的是研究铽 - 149与生长抑素受体(SSTR)激动剂DOTATATE和SSTR拮抗剂DOTA - LM3联合使用的情况。对放射性肽进行评估以比较它们在体外和体内的治疗效果。
铽 - 149在ISOLDE/CERN生产,并在保罗·谢尔研究所进行化学纯化。在pH 4.5的标准标记条件下,用[Tb]TbCl对生长抑素类似物进行放射性标记。在SSTR阳性的AR42J大鼠胰腺肿瘤细胞暴露于不同活性浓度的[Tb]Tb - DOTATATE和[Tb]Tb - DOTA - LM3 16 - 18小时后,进行细胞活力(MTT)和存活分析(集落形成)分析。使用γ - H2A.X和53BP1的免疫荧光成像确定DNA双链断裂。对注射了1×5 MBq或2×5 MBq各自放射性肽的荷AR42J肿瘤小鼠进行治疗研究。在无肿瘤的免疫活性小鼠中,评估高达40 MBq [Tb]Tb - DOTATATE或40 MBq [Tb]Tb - DOTA - LM3对骨髓和肾脏的不良影响的耐受性。
在放射性化学纯度≥98%的情况下,肽的放射性标记在高达20 MBq/nmol的摩尔活性下实现。AR42J细胞活力以活性依赖的方式降低,[Tb]Tb - DOTA - LM3比[Tb]Tb - DOTATATE稍强(EC:0.5对1.2 kBq/mL)。两种放射性肽在每个细胞核中诱导的γ - H2A.X和53BP1焦点数量相似,这表明AR42J肿瘤细胞中的DNA损伤。给荷瘤小鼠注射1×5 MBq放射性肽后,[Tb]Tb - DOTATATE和[Tb]Tb - DOTA - LM3的中位生存时间分别为16.5天和19天,而未治疗的对照小鼠仅为8天。应用2×5 MBq的放射性肽进一步将中位生存时间分别延长至30天和29天。未患肿瘤的治疗小鼠的血细胞计数和血浆生物标志物值与未治疗的对照小鼠相似。所有小鼠中[Tc]Tc - DMSA的肾脏蓄积相似,表明肾功能正常。
基于铽的放射性肽在体外有效降低肿瘤细胞活力以及在小鼠体内抑制肿瘤生长,且不引起相关不良事件,无论使用的是SSTR激动剂还是拮抗剂。这些数据鼓励进一步将铽 - 149用于临床前应用,以评估其与其他肿瘤靶向剂联合使用的潜力。
