SOX71,一种三芳基甲基自由基 OX071 的生物相容琥珀酰衍生物,用于使用电子顺磁共振进行体内定量氧映射。
SOX71, A Biocompatible Succinyl Derivative of the Triarylmethyl Radical OX071 for In Vivo Quantitative Oxygen Mapping Using Electron Paramagnetic Resonance.
机构信息
Department of Pharmaceutical Sciences, School of Pharmacy, West Virginia University, Morgantown, WV, 26506, USA.
In Vivo Multifunctional Magnetic Resonance Center, Robert C. Byrd Health Sciences Center, West Virginia University, Morgantown, WV, 26506, USA.
出版信息
Mol Imaging Biol. 2024 Jun;26(3):542-552. doi: 10.1007/s11307-023-01869-8. Epub 2023 Nov 9.
PURPOSE
This study aimed to develop a biocompatible oximetric electron paramagnetic resonance (EPR) spin probe with reduced self-relaxation, and sensitivity to oxygen for a higher signal-to-noise ratio and longer relaxation times at high oxygen concentration, compared to the reference spin probe OX071.
PROCEDURES
SOX71 was synthesized by succinylation of the twelve alcohol groups of OX071 spin probe and characterized by EPR at X-Band (9.5 GHz) and at low field (720 MHz). The biocompatibility of SOX71 was tested in vitro and in vivo in mice. A pharmacokinetic study was performed to determine the best time frame for EPR imaging. Finally, a proof-of-concept EPR oxygen imaging was performed on a mouse model of a fibrosarcoma tumor.
RESULTS
SOX71 was synthesized in one step from OX071. SOX71 exhibits a narrow line EPR spectrum with a peak-to-peak linewidth of 66 mG, similar to OX071. SOX71 does not bind to albumin nor show cell toxicity for the concentrations tested up to 5 mM. No toxicity was observed after systemic delivery via intraperitoneal injection in mice at twice the dose required for EPR imaging. After the injection, the probe is readily absorbed into the bloodstream, with a peak blood concentration half an hour, post-injection. Then, the probe is quickly cleared by the kidney with a half-life of ~ 45 min. SOX71 shows long relaxation times under anoxic condition (T = 9.5 µs and T = 5.1 µs; [SOX71] = 1 mM in PBS at 37 °C, pO = 0 mmHg, 720 MHz). Both the relaxation rates R and R show a decreased sensitivity to pO leading to twice longer relaxation times under room air conditions (pO = 159 mmHg) compared to OX071. This is ideal for oxygen imaging in samples with a wide range of pO. Both the relaxation rates R and R show a decreased sensitivity to self-relaxation compared to OX071, with a negligible effect of the probe concentration on R. SOX71 was successfully applied to image oxygen in a tumor.
CONCLUSION
SOX71, a succinylated derivative of OX071 was synthesized, characterized, and applied for in vivo EPR tumor oxygen imaging. SOX71 is highly biocompatible, and shows decreased sensitivity to oxygen and self-relaxation. This first report suggests that SOX71 is superior to OX071 for absolute oxygen mapping under a broad range of pO values.
目的
本研究旨在开发一种具有生物相容性的血氧电子顺磁共振(EPR)自旋探针,与参比自旋探针 OX071 相比,该探针具有更低的自弛豫率和对氧的灵敏度,从而在高氧浓度下获得更高的信噪比和更长的弛豫时间。
方法
通过 OX071 自旋探针的 12 个醇基的琥珀酰化合成 SOX71,并在 X 波段(9.5GHz)和低场(720MHz)下通过 EPR 进行表征。在体外和体内小鼠模型中测试 SOX71 的生物相容性。进行药代动力学研究以确定 EPR 成像的最佳时间框架。最后,在纤维肉瘤肿瘤小鼠模型上进行了 EPR 氧成像的概念验证。
结果
SOX71 可由 OX071 一步合成。SOX71 表现出与 OX071 相似的窄线 EPR 谱,其峰间线宽为 66 mG。SOX71 不与白蛋白结合,在所测试的浓度下也不会显示细胞毒性,最高可达 5mM。在两次 EPR 成像所需剂量的腹腔内注射后,在小鼠中全身给药未观察到毒性。注射后,探针很容易被吸收到血液中,注射后半小时达到血药峰浓度。然后,探针被肾脏迅速清除,半衰期约为 45 分钟。在缺氧条件下,SOX71 显示出较长的弛豫时间(T=9.5μs 和 T=5.1μs;[SOX71]=1mM 在 PBS 中于 37°C,pO=0mmHg,720MHz)。与 OX071 相比,弛豫率 R 和 R 均显示出对 pO 的敏感性降低,从而导致在室气条件下弛豫时间延长一倍(pO=159mmHg)。这对于具有广泛 pO 范围的样品中的氧成像非常理想。与 OX071 相比,弛豫率 R 和 R 均显示出对自弛豫的敏感性降低,而探针浓度对 R 的影响可以忽略不计。SOX71 成功应用于肿瘤的氧成像。
结论
本研究合成、表征并应用 OX071 的琥珀酰化衍生物 SOX71 进行体内 EPR 肿瘤氧成像。SOX71 具有高度的生物相容性,对氧和自弛豫的敏感性降低。这是第一个表明 SOX71 在广泛的 pO 值范围内优于 OX071 进行绝对氧映射的报告。
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