Imaging-Guided Metabolic Radiosensitization of Pediatric Rhabdoid Tumors

Wenxi Xia, Matthew Goff, Neetu Singh, Jiemin Huang, David Gillespie, Esther Need, Randy Jensen, Mark Pagel, Amit Maity, Sixiang Shi, Shreya Goel
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Abstract

Tumor hypoxia leads to increased resistance to radiation therapy (RT), resulting in markedly worse clinical outcomes in the treatment and management of pediatric malignant rhabdoid tumors (MRT). To alleviate hypoxia in MRT, we repurposed an FDA approved, mitochondrial oxidative phosphorylation (OXPHOS) inhibitor, Atovaquone (AVO), to inhibit oxygen consumption and thereby enhance the sensitivity of tumor cells to low dose RT in MRT by hypoxia alleviation. Additionally, to better understand the tumor response induced by AVO and optimize the combination with RT, we employed an emerging, noninvasive imaging modality, known as multispectral optoacoustic tomography (MSOT), to monitor and evaluate real-time dynamic changes in tumor hypoxia and vascular perfusion. Oxygen-Enhanced (OE)-MSOT could measure the change of tumor oxygenation in the MRT xenograft models after AVO and RT treatments, indicating its potential as a response biomarker. OE-MSOT showed that treating MRT mouse models with AVO resulted in a transient increase in oxygen saturation (ΔsO2) in tumors when the mice were subjected to oxygen challenge, while RT or saline treated groups produced no change. In AVO+RT combination groups, the tumors showed an increase in ΔsO2 after AVO administration followed by a significant decrease after RT, that correlated with a strong anti-tumor response, demarcated by complete regression of tumors, with no relapse on long-term monitoring. These observations were histologically validated. In MRT models of acquired AVO resistance, combination therapy failed to alleviate tumoral hypoxia and elicit any therapeutic benefit. Together, our data highlights the utility of repurposing anti-malarial AVO as an anticancer adjuvant for enabling low dose RT for pediatric patients.
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成像引导下的小儿横纹肌瘤代谢放射增敏术
肿瘤缺氧会导致对放射治疗(RT)的耐药性增加,从而使小儿恶性横纹肌瘤(MRT)的临床治疗和管理效果明显降低。为了缓解 MRT 中的缺氧状况,我们将美国食品及药物管理局(FDA)批准的线粒体氧化磷酸化(OXPHOS)抑制剂阿托伐醌(AVO)重新用于抑制耗氧量,从而通过缓解缺氧状况提高肿瘤细胞对 MRT 中低剂量 RT 的敏感性。此外,为了更好地了解 AVO 诱导的肿瘤反应并优化与 RT 的结合,我们采用了一种新兴的无创成像模式,即多谱段光声断层扫描(MSOT),来监测和评估肿瘤缺氧和血管灌注的实时动态变化。氧增强(OE)-MSOT可以测量AVO和RT治疗后MRT异种移植模型中肿瘤氧合的变化,显示了其作为反应生物标志物的潜力。OE-MSOT显示,用AVO治疗MRT小鼠模型后,当小鼠受到氧挑战时,肿瘤内的氧饱和度(ΔsO2)会出现短暂升高,而RT或生理盐水治疗组则没有变化。在 AVO+RT 组合组中,AVO 给药后肿瘤的 ΔsO2 增加,RT 给药后肿瘤的 ΔsO2 显著下降,这与强烈的抗肿瘤反应有关,表现为肿瘤完全消退,长期监测无复发。这些观察结果在组织学上得到了验证。在获得性 AVO 抗性的 MRT 模型中,联合疗法未能缓解肿瘤缺氧,也未能产生任何治疗效果。总之,我们的数据凸显了将抗疟疾 AVO 作为抗癌辅助药物重新用于小儿患者低剂量 RT 的实用性。
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