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两种(125)I 放射性标记吖啶衍生物用于黑色素瘤俄歇电子放射性核素治疗的评估

Evaluation of two (125)I-radiolabeled acridine derivatives for Auger-electron radionuclide therapy of melanoma.

作者信息

Gardette Maryline, Viallard Claire, Paillas Salomé, Guerquin-Kern Jean-Luc, Papon Janine, Moins Nicole, Labarre Pierre, Desbois Nicolas, Wong-Wah-Chung Pascal, Palle Sabine, Wu Ting-Di, Pouget Jean-Pierre, Miot-Noirault Elisabeth, Chezal Jean-Michel, Degoul Francoise

机构信息

Université d'Auvergne, Imagerie Moléculaire et Thérapie Vectorisée, Clermont Université, BP 10448, 63000, Clermont-Ferrand, France.

出版信息

Invest New Drugs. 2014 Aug;32(4):587-97. doi: 10.1007/s10637-014-0086-5. Epub 2014 Apr 2.

DOI:10.1007/s10637-014-0086-5
PMID:24691673
Abstract

We previously selected two melanin-targeting radioligands [(125)I]ICF01035 and [(125)I]ICF01040 for melanoma-targeted (125)I radionuclide therapy according to their pharmacological profile in mice bearing B16F0 tumors. Here we demonstrate in vitro that these compounds present different radiotoxicities in relation to melanin and acidic vesicle contents in B16F0, B16F0 PTU and A375 cell lines. ICF01035 is effectively observed in nuclei of achromic (A375) melanoma or in melanosomes of melanized melanoma (B16F0), while ICF01040 stays in cytoplasmic vesicles in both cells. [(125)I]ICF01035 induced a similar survival fraction (A50) in all cell lines and led to a significant decrease in S-phase cells in amelanotic cell lines. [(125)I]ICF01040 induced a higher A50 in B16 cell lines compared to [(125)I]ICF01035 ones. [(125)I]ICF01040 induced a G2/M blockade in both A375 and B16F0 PTU, associated with its presence in cytoplasmic acidic vesicles. These results suggest that the radiotoxicity of [(125)I]ICF01035 and [(125)I]ICF01040 are not exclusively reliant on DNA alterations compatible with γ rays but likely result from local dose deposition (Auger electrons) leading to toxic compound leaks from acidic vesicles. In vivo, [(125)I]ICF01035 significantly reduced the number of B16F0 lung colonies, enabling a significant increase in survival of the treated mice. Targeting melanosomes or acidic vesicles is thus an option for future melanoma therapy.

摘要

我们之前根据[(125)I]ICF01035和[(125)I]ICF01040在携带B16F0肿瘤的小鼠中的药理学特征,选择了这两种靶向黑色素的放射性配体用于黑色素瘤靶向(125)I放射性核素治疗。在此我们在体外证明,这些化合物在B16F0、B16F0 PTU和A375细胞系中,就黑色素和酸性囊泡内容物而言呈现出不同的放射毒性。在无色素性(A375)黑色素瘤的细胞核中或黑色素化黑色素瘤(B16F0)的黑素小体中能有效观察到ICF01035,而ICF01040在这两种细胞中均停留在细胞质囊泡中。[(125)I]ICF01035在所有细胞系中诱导出相似的存活分数(A50),并导致无黑色素细胞系中S期细胞显著减少。与[(125)I]ICF01035相比,[(125)I]ICF01040在B16细胞系中诱导出更高的A50。[(125)I]ICF01040在A375和B16F0 PTU中均诱导G2/M期阻滞,这与其存在于细胞质酸性囊泡有关。这些结果表明,[(125)I]ICF01035和[(125)I]ICF01040的放射毒性并非完全依赖于与γ射线相容的DNA改变,而是可能源于局部剂量沉积(俄歇电子)导致有毒化合物从酸性囊泡中泄漏。在体内,[(125)I]ICF01035显著减少了B16F0肺集落的数量,使治疗小鼠的存活率显著提高。因此,靶向黑素小体或酸性囊泡是未来黑色素瘤治疗的一种选择。

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本文引用的文献

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Meeting report from the 2011 International Melanoma Congress, Tampa, Florida.2011年国际黑色素瘤大会会议报告,佛罗里达州坦帕市
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