IEPA, a novel radiation countermeasure, alleviates acute radiation syndrome in rodents.

Radoslaw Wesolowski, Brian L Fish, Michael Eibl, Stella Bähr, Srishti Munjal Mehta, Maciej T Czajkowski, Tracy Gasperetti, Christie M Orschell, Corinna Asang, Nikita Singh, Heather A Himburg, Dirk Pleimes
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Abstract

Repurposing therapeutic agents with existing clinical data is a common strategy for developing radiation countermeasures. IEPA (imidazolyl ethanamide pentandioic acid) is an orally bioavailable small molecule pseudopeptide with myeloprotective properties, a good clinical safety profile, and stable chemical characteristics facilitating stockpiling. Here, we evaluated IEPA's radiomitigative efficacy in the hematopoietic subsyndrome of acute radiation syndrome (H-ARS) using total-body irradiation (TBI) models in C57BL/6J mice and WAG/RijCmcr rats, applying various posology schemes and introducing syringe feeding of the IEPA formulation in the pudding. Additionally, we assessed IEPA in the delayed effects of acute radiation exposure (DEARE) model after partial-body irradiation (PBI) in WAG/RijCmcr rats. Endpoints included survival, body weight, hematology, and pulmonary parameters, depending on the model. Results from mouse and rat TBI models demonstrated survival improvements with repeated IEPA dosing at 10 mg/kg, with the largest benefits observed in the bi-daily (BID) treatment over the 30-day ARS phase in female rats. Survival across PBI-DEARE subsyndromes was comparable between IEPA and vehicle groups, though IEPA improved pulmonary parameters in female rats during the lung-DEARE phase. Sex-related differences in response to irradiation and IEPA were noted, with females showing a survival advantage. IEPA treatment is compatible with Neulasta® (Pegfilgrastim; PEG-G-CSF); adequately powered studies are needed to confirm the trend toward improved survival over standard care alone. IEPA is a promising development candidate as a medical countermeasure against the effects of acute radiation syndrome. Further confirmatory studies in small and large animal models should validate the robustness and translatability of preliminary rodent data on IEPA's radiomitigative efficacy.

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新型辐射防护措施 IEPA 可减轻啮齿动物的急性辐射综合征。
利用现有的临床数据重新确定治疗药物的用途是开发辐射对策的常用策略。IEPA(咪唑乙酰胺戊二酸)是一种口服生物可利用的小分子伪肽,具有骨髓保护特性、良好的临床安全性以及便于储存的稳定化学特性。在此,我们使用全身辐照(TBI)模型,在 C57BL/6J 小鼠和 WAG/RijCmcr 大鼠身上评估了 IEPA 对急性辐射综合征(H-ARS)造血亚综合征(H-ARS)的放射剂量疗效。此外,我们还在WAG/RijCmcr大鼠部分身体辐照(PBI)后的急性辐照延迟效应(DEARE)模型中对IEPA进行了评估。根据模型的不同,终点包括存活率、体重、血液学和肺部参数。小鼠和大鼠创伤性脑损伤模型的研究结果表明,以 10 毫克/千克的剂量重复服用 IEPA 可提高存活率,在雌性大鼠为期 30 天的 ARS 阶段中,双日(BID)治疗的益处最大。IEPA组和车辆组在PBI-DEARE亚综合征中的存活率相当,但在肺-DEARE阶段,IEPA改善了雌性大鼠的肺参数。辐照和 IEPA 的反应存在性别差异,雌性大鼠的存活率更高。IEPA治疗与Neulasta®(Pegfilgrastim;PEG-G-CSF)配合使用;需要进行充分的研究,以证实与单独的标准治疗相比,IEPA有提高生存率的趋势。IEPA 是一种很有前途的候选药物,可作为应对急性辐射综合症影响的医疗对策。在小型和大型动物模型中开展的进一步确证研究应能验证有关 IEPA 放射剂量疗效的初步啮齿类动物数据的可靠性和可转化性。
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