Wicki Andreas, Wild Damian, Storch Daniel, Seemayer Christian, Gotthardt Martin, Behe Martin, Kneifel Stefan, Mihatsch Michael J, Reubi Jean-Claude, Mäcke Helmut R, Christofori Gerhard
Institute of Biochemistry and Genetics, DKBW, Medical School, University of Basel, Basel, Switzerland.
Clin Cancer Res. 2007 Jun 15;13(12):3696-705. doi: 10.1158/1078-0432.CCR-06-2965.
Although metabolic changes make diagnosis of insulinoma relatively easy, surgical removal is hampered by difficulties in locating it, and there is no efficient treatment for malignant insulinoma. We have previously shown that the high density of glucagon-like peptide-1 receptors (GLP-1R) in human insulinoma cells provides an attractive target for molecular imaging and internal radiotherapy. In this study, we investigated the therapeutic potential of [Lys(40)(Ahx-DTPA-(111)In)NH(2)]-Exendin-4, an (111)In-labeled agonist of GLP-1, in a transgenic mouse model of human insulinoma.
[Lys(40)(Ahx-DTPA-(111)In)NH(2)]-Exendin-4 was assessed in the Rip1Tag2 mouse model of pancreatic beta-cell carcinogenesis, which exhibits a GLP-1R expression comparable with human insulinoma. Mice were injected with 1.1, 5.6, or 28 MBq of the radiopeptide and sacrificed 7 days after injection. Tumor uptake and response, the mechanism of action of the radiopeptide, and therapy toxicity were investigated.
Tumor uptake was >200% injected activity per gram, with a dose deposition of 3 Gy/MBq at 40 pmol [Lys(40)(Ahx-DTPA-(111)In)NH(2)]-Exendin-4. Other GLP-1R-positive organs showed > or =30 times lower dose deposition. A single injection of [Lys(40)(Ahx-DTPA-(111)In)NH(2)]-Exendin-4 resulted in a reduction of the tumor volume by up to 94% in a dose-dependent manner without significant acute organ toxicity. The therapeutic effect was due to increased tumor cell apoptosis and necrosis and decreased proliferation.
The results suggest that [Lys(40)(Ahx-DTPA-(111)In)NH(2)]-Exendin-4 is a promising radiopeptide capable of selectively targeting insulinoma. Furthermore, Auger-emitting radiopharmaceuticals such as (111)In are able to produce a marked therapeutic effect if a high tumor uptake is achieved.
尽管代谢变化使胰岛素瘤的诊断相对容易,但定位困难阻碍了手术切除,且恶性胰岛素瘤尚无有效的治疗方法。我们之前已表明,人胰岛素瘤细胞中胰高血糖素样肽-1受体(GLP-1R)的高密度为分子成像和内放射治疗提供了一个有吸引力的靶点。在本研究中,我们在人胰岛素瘤转基因小鼠模型中研究了[赖氨酸(40)(Ahx-DTPA-(111)铟)氨基]-艾塞那肽-4(一种(111)铟标记的GLP-1激动剂)的治疗潜力。
在胰腺β细胞癌变的Rip1Tag2小鼠模型中评估[赖氨酸(40)(Ahx-DTPA-(111)铟)氨基]-艾塞那肽-4,该模型中GLP-1R的表达与人胰岛素瘤相当。给小鼠注射1.1、5.6或28 MBq的放射性肽,并在注射后7天处死。研究肿瘤摄取及反应、放射性肽的作用机制和治疗毒性。
肿瘤摄取量>每克注射活性的200%,在40 pmol[赖氨酸(40)(Ahx-DTPA-(111)铟)氨基]-艾塞那肽-4时剂量沉积为3 Gy/MBq。其他GLP-1R阳性器官的剂量沉积低30倍以上。单次注射[赖氨酸(40)(Ahx-DTPA-(111)铟)氨基]-艾塞那肽-4可使肿瘤体积以剂量依赖方式减少多达94%,且无明显急性器官毒性。治疗效果归因于肿瘤细胞凋亡和坏死增加以及增殖减少。
结果表明,[赖氨酸(40)(Ahx-DTPA-(111)铟)氨基]-艾塞那肽-4是一种有前景的放射性肽,能够选择性靶向胰岛素瘤。此外,如果能实现高肿瘤摄取,发射俄歇电子的放射性药物如(111)铟能够产生显著的治疗效果。
