博莱霉素和抗坏血酸产生的自由基的EPR自旋捕获。

G R Buettner, P L Moseley
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引用次数: 41

摘要

在抗坏血酸存在的情况下,博来霉素(BLM)被转化为一种不能诱导DNA链断裂的氧化还原活性形式。我们利用EPR自旋捕获5,5-二甲基吡咯-1-氧化物(DMPO)来检测这一过程中自由基的产生。在Fe(III)BLM-DMPO体系中引入抗坏血酸导致形成三个EPR可观察到的自由基。其中一种自由基是共振稳定的抗坏血酸自由基(aH = 1.8 G),不被DMPO自旋捕获;另外两个是DMPO自旋捕获的结果。这些自由基似乎是两个碳中心自由基,DMPO/。CR1, (aN1 = 15.75 G, aH1 = 22.30 G, aN/aH = 0.706)和DMPO/。CR2 (aN2 = 15.20 G, aH2 = 19.20 G, aN/aH = 0.79)。虽然无法确定自旋捕获的碳中心自由基的确切结构,但超细分裂以及aN/aH值都是吸电子基团存在的特征,例如氧原子附着在碳原子上时。事实上,当糖受到HO的氧化损伤时,这些参数是DMPO自旋捕获结果的特征。因此,这些BLM-抗坏血酸产生的自由基很可能来自BLM的糖部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EPR spin trapping of free radicals produced by bleomycin and ascorbate.

In the presence of ascorbate, bleomycin (BLM) is converted to a redox-inactive form that is incapable of inducing DNA strand scission. We have employed EPR spin trapping with 5,5-dimethylpyrroline-1-oxide (DMPO) to examine free radical production during this process. The introduction of ascorbate to an Fe(III)BLM-DMPO system results in the formation of three EPR observable free radicals. One of these radicals is the resonance-stabilized ascorbate free radical (aH = 1.8 G) that is not spin trapped by DMPO; the other two are the result of DMPO spin trapping. These radicals appear to be two carbon-centered radicals, DMPO/.CR1, (aN1 = 15.75 G, aH1 = 22.30 G, aN/aH = 0.706) and DMPO/.CR2 (aN2 = 15.20 G, aH2 = 19.20 G, aN/aH = 0.79). Although it is not possible to identify the exact structures of the carbon-centered radicals that are spin trapped, the hyperfine splittings, as well as the aN/aH values, are characteristic of the presence of electron-withdrawing groups, such as the oxygen atom when attached to the carbon atom. In fact, these parameters are characteristic of DMPO spin trapping results obtained when sugars are subjected to oxidative insult from HO.. Thus, these BLM-ascorbate produced radicals may well be derived from the sugar moiety of BLM.

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