Modeling the acute mucosal toxicity to fractionated radiotherapy combined with the ATM inhibitor WSD0628.

IF 5.3 2区 医学 Q1 ONCOLOGY
Darwin A Garcia, Sneha Rathi, Margaret A Connors, Michael Grams, Rachael A Vaubel, Katrina K Bakken, Lauren L Ott, Brett L Carlson, Zeng Hu, Paul A Decker, Jeanette E Eckel-Passow, Danielle M Burgenske, Wei Zhong, Joshua D Trzasko, Michael G Herman, William F Elmquist, Nicholas B Remmes, Jann N Sarkaria
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Abstract

ATM inhibitors are being developed as radiosensitizers to improve the antitumor effects of radiotherapy, but ATM inhibition can also radiosensitize normal tissues. Therefore, understanding the elevated risk for normal tissue toxicities is critical for radiosensitizer development. This study focused on modeling the relationship between acute mucosal toxicity, radiation dose, fractionation schedule, and radiosensitizer exposure. The ATM inhibitor WSD0628 was combined with single or fractionated doses of radiation delivered to the oral cavity or esophagus of FVB mice. The potentiation by WSD0628 was quantified by a sensitizer enhancement ratio (SER), which describes the changes in radiation tolerance for radiation combined with WSD0628 relative to radiation-only regimens. WSD0628 profoundly enhanced radiation-induced acute oral and esophageal toxicities. For oral mucosal toxicity, the enhancement by WSD0628 with 3 fractions of radiation resulted in an SER ranging from 1.3 (0.25 mg/kg) to 3.1 (7.5 mg/kg). For the 7.5 mg/kg combination, the SER increased with increasing number of fractions from 2.2 (1 fraction) to 4.3 (7 fractions) for oral toxicity and from 2.2 (1 fraction) to 3.6 (3 fractions) for esophageal toxicity, which reflects a loss of the normal tissue sparing benefit of fractionated radiation. These findings were used to develop a modified biologically effective dose model to determine alternative radiation schedules with or without WSD0628 that result in similar levels of toxicity. Successful radiosensitizer dose-escalation to maximally effective therapeutic dose will require careful deliberation of tumor site and reduction of radiation dose-volume limits for organs at risk.

建立分次放疗联合 ATM 抑制剂 WSD0628 的急性粘膜毒性模型。
目前正在开发ATM抑制剂作为放射增敏剂,以提高放疗的抗肿瘤效果,但ATM抑制剂也会使正常组织放射增敏。因此,了解正常组织毒性升高的风险对于放射增敏剂的开发至关重要。本研究的重点是模拟急性粘膜毒性、放射剂量、分次计划和放射增敏剂照射之间的关系。将 ATM 抑制剂 WSD0628 与单次或分次剂量的辐射结合起来,照射 FVB 小鼠的口腔或食道。WSD0628的增效作用通过增敏剂增强比(SER)进行量化,该比率描述了相对于纯放射治疗方案而言,结合WSD0628的放射治疗方案的辐射耐受性的变化。WSD0628 显著增强了辐射引起的急性口腔和食道毒性。在口腔黏膜毒性方面,WSD0628 与 3 次分量辐射的增强作用导致了 1.3(0.25 毫克/千克)到 3.1(7.5 毫克/千克)的 SER。对于 7.5 毫克/千克的组合,口腔毒性的 SER 随着分段数的增加而增加,从 2.2(1 分段)到 4.3(7 分段),食管毒性的 SER 从 2.2(1 分段)到 3.6(3 分段),这反映了分段放射对正常组织的保护作用的丧失。这些研究结果被用来开发一个改进的生物有效剂量模型,以确定使用或不使用 WSD0628 会导致相似毒性水平的其他辐射计划。要成功地将放射增敏剂的剂量递增到最大有效治疗剂量,就必须仔细考虑肿瘤部位,并降低有风险器官的辐射剂量-体积限制。
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来源期刊
CiteScore
11.20
自引率
1.80%
发文量
331
审稿时长
3 months
期刊介绍: Molecular Cancer Therapeutics will focus on basic research that has implications for cancer therapeutics in the following areas: Experimental Cancer Therapeutics, Identification of Molecular Targets, Targets for Chemoprevention, New Models, Cancer Chemistry and Drug Discovery, Molecular and Cellular Pharmacology, Molecular Classification of Tumors, and Bioinformatics and Computational Molecular Biology. The journal provides a publication forum for these emerging disciplines that is focused specifically on cancer research. Papers are stringently reviewed and only those that report results of novel, timely, and significant research and meet high standards of scientific merit will be accepted for publication.
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