替拉帕嗪治疗实验性颅内恶性胶质瘤的植入式聚合物。

X Yuan, K Tabassi, J A Williams
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引用次数: 17

摘要

恶性胶质瘤对强化放射治疗仍有难治性,细胞缺氧增强了临床放射抵抗。在缺氧条件下,苯并三嗪二氮氧化物(3-氨基-1,2,4-苯并三嗪1,4-二氧化)(替拉帕嗪)被还原生成自由基中间体,导致DNA损伤和细胞死亡。对于颅外异种移植物,替拉帕嗪治疗已显示出希望。因此,我们将替拉帕胺掺入合成的可生物降解聚合物中,测量其释放量,并测试其单独或联合外束放疗治疗实验性颅内恶性胶质瘤异种移植物的疗效。合成了聚双(对羧基苯氧基)-丙烷(PCPP):癸二酸(SA) (PCPP:SA比20:80)聚合物。将PCPP:SA聚合物与固体替拉帕胺结合,产率为20%或30% (wt/wt)。用PBS(37℃)孵育3 × 2mm聚合物片(10 mg),记录药物释放与时间的比例。雄性nu/nu裸鼠麻醉后颅内注射2 × 10(5) U251人恶性胶质瘤细胞。单次腹腔内给药和/或外放射治疗,各组小鼠在接种后第8天ig 0.3 mmol/kg替拉帕嗪、5 Gy颅脑照射或联合给药。在药物和放射分步治疗中,小鼠在接种后第8天和第9天ig 0.15 mmol/kg替拉帕嗪,5 Gy辐射或联合治疗。对于颅内(i.c)聚合物治疗,小鼠颅骨切除并在细胞接种部位放置聚合物盘。聚合物中最大可耐受的替拉帕胺负载百分比。测定椎间盘。接种后第7天,各组小鼠单独或联合放射(5 Gy × 2剂量)或联合i.p.药物(0.15 mmol/kg × 2剂量),第8天和第9天,记录存活情况。聚合物显示出100天以上的体外缓释控制。5 Gy x 1治疗可改善生存;28.5 +/- 3.7 d (P = 0.01),替拉帕嗪单剂量组0.3 mmol/kg,替拉帕嗪单剂量组17.5 +/- 1.9 d (P = NS);21.5 +/- 5.0 d (P = NS)无显著差异。分次治疗5 Gy × 2,口服0.15 mmol/kg替拉帕嗪× 2,联合治疗生存率分别为44.5 +/- 3.9 (P < 0.001)、24.5 +/- 2.3 (P = 0.05)和50.0 +/- 6.0 (P < 0.001)。颅内空聚合物治疗后的生存期为16.5 +/- 3.0天,与5 Gy x 2治疗联合后的生存期为31.0 +/- 3.0天(P = 0.003)。单独使用3%替拉帕胺的聚合物与联合放疗后的存活率没有差异。3%的替拉帕胺聚合物,i.p.替拉帕胺和放射治疗导致早期死亡和最高的长期生存率。讨论了潜在毒性的依据。我们的结论是,植入式生物可降解聚合物为治疗实验性胶质瘤提供了可控的颅内释放。对于恶性胶质瘤的治疗,替拉帕嗪的连续聚合物介导给药和分步全身给药与外束放疗的结合值得进一步探索。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implantable polymers for tirapazamine treatments of experimental intracranial malignant glioma.

Malignant gliomas remain refractory to intensive radiotherapy and cellular hypoxia enhances clinical radioresistance. Under hypoxic conditions, the benzotriazine di-N-oxide (3-amino-1,2,4-benzotriazine 1,4-dioxide) (tirapazamine) is reduced to yield a free-radical intermediate that results in DNA damage and cellular death. For extracranial xenografts, tirapazamine treatments have shown promise. We therefore incorporated tirapazamine into the synthetic, biodegradable polymer, measured the release, and tested the efficacy both alone and in combination with external beam radiotherapy in the treatment of experimental intracranial human malignant glioma xenografts. The [(poly(bis(p-carboxyphenoxy)-propane) (PCPP):sebacic acid (SA) (PCPP:SA ratio 20:80)] polymer was synthesized. The PCPP:SA polymer and solid tirapazamine were combined to yield proportions of 20% or 30% (wt/wt). Polymer discs (3 x 2 mm) (10 mg) were incubated (PBS, 37 degrees C), and the proportion of the drug released vs. time was recorded. Male nu/nu nude mice were anesthetized and received intracranial injections of 2 x 10(5) U251 human malignant glioma cells. For single intraperitoneal (i.p.) drug and/or external radiation treatments, groups of mice had i.p. 0.3 mmol/kg tirapazamine, 5 Gy cranial irradiation, or combined treatments on day 8 after inoculation. For fractionated drug and radiation treatments, mice had i.p. 0.15 mmol/kg tirapazamine, 5 Gy radiation, or combined treatments on days 8 and 9 after inoculation. For intracranial (i.c.) polymer treatments, mice had craniectomies and intracranial placement of polymer discs at the site of cellular inoculation. The maximally tolerated percentage loading of tirapazamine in the polymer.disc was determined. On day 7 after inoculation, groups of mice had i.c. empty or 3% tirapazamine alone or combined with radiation (5 Gy x 2 doses) or combined with i.p. drug (0.15 mmol/kg x 2 doses on days 8 and 9). Survival was recorded. Polymers showed controlled, protracted in vitro release for over 100 days. The 5 Gy x 1 treatment resulted in improved survival; 28.5 +/- 3.7 days (P = 0.01 vs. controls), while the single i.p. 0.3 mmol/kg tirapazamine treatment, 17.5 +/- 1.9 days (P = NS) and combined treatments; 21.5 +/- 5.0 days (P = NS) were not different. The fractionated treatments: 5 Gy x 2, i.p. 0.15 mmol/kg tirapazamine x 2 and the combined treatments resulted in improved survival: 44.5 +/- 3.9 (P < 0.001), 24.5 +/- 2.3 (P = 0.05) and 50.0 +/- 6.0 (P < 0.001), respectively. Survival after intracranial empty polymer was 16.5 +/- 3.0 days and increased to 31.0 +/- 3.0 (P = 0.003) days when combined with the 5 Gy x 2 treatment. The survival after the polymer bearing 3% tirapazamine alone vs. combined with radiation was not different. The combined 3% tirapazamine polymer, i.p. tirapazamine, and radiation treatments resulted in both early deaths and the highest long-term survivorship. The basis for potential toxicity is discussed. We conclude that implantable biodegradable polymers provide controlled intracranial release for treatment of experimental glioma. For treatment of malignant gliomas, the combination of continuous polymer-mediated delivery and fractionated systemic delivery of tirapazamine with external beam radiotherapy warrants further exploration.

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