Cemtirestat dimerization in liposomes and erythrocytes exposed to peroxyl radicals was reverted by thiol-disulfide exchange with GSH.

IF 3.6 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Free Radical Research Pub Date : 2024-01-01 Epub Date: 2024-02-07 DOI:10.1080/10715762.2023.2298852

Lucia Kovacikova, Marta S Prnova, Pavol Bodo, Milan Stefek

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引用次数: 0

Abstract

In the model system of DOPC (1,2-dioleoyl-sn-glycero-3-phosphocholine) liposomes exposed to peroxyl radicals generated by the azoinitiator AAPH, cemtirestat (CMTI-SH) inhibited lipid peroxidation more efficiently than the natural antioxidant glutathione. In the concentrations 100 to 500 µM, both CMTI-SH and GSH induced distinct lag phases in the initial stages of lipid peroxidation yet GSH produced consistently shorter induction periods (about twice) than equimolar CMTI-SH. Moreover, concentration dependence of lipid peroxidation inhibition measured at the 80th minute, revealed about three times higher IC50 value for GSH compared to CMTI-SH. When the incubations prolonged till 180 min no further absorbance changes at 270 and 302 nm, respectively, occurred. After addition of the reducing agent tris(2-carboxyethyl)phosphine, the absorbance peak at 270 nm shifted back to 302 nm. These findings pointed to the presence of reducible CMTI-SH disulfide whose definite structure was confirmed by proving identity of TLC retention and spectral data with those of the synthesized CMTI disulfide. When CMTI-SH and GSH were present simultaneously in the liposomal incubations, the mixing effect on the induction period was synergistic rather than additive. This was explained by ability of GSH to reduce CMTI disulfide which was proved in separate experiments with an authentic CMTI disulfide prepared synthetically. This finding was also demonstrated by experiment with CMTI-disulfide to protect the erythrocytes against oxidative damage induced by peroxyl radicals. To conclude, CMTI-SH scavenges reactive oxygen species yielding CMTI disulfide while GSH maintains CMTI-SH in the reduced state. This finding was also demonstrated by experiment with CMTI-disulfide to protect the erythrocytes against oxidative damage induced by peroxyl radicals. CMTI-SH would thus represent the first line of the cellular defense against peroxyl radical mediated oxidative stress.

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暴露于过氧自由基的脂质体和红细胞中的 Cemtirestat 二聚化可通过与 GSH 进行硫醇-二硫化物交换而恢复。

在暴露于由偶氮引发剂 AAPH 产生的过氧自由基的 DOPC（1,2-二油酰-sn-甘油-3-磷酸胆碱）脂质体模型系统中，cemtirestat（CMTI-SH）比天然抗氧化剂谷胱甘肽更有效地抑制脂质过氧化。在 100 至 500 µM 的浓度范围内，CMTI-SH 和 GSH 都能在脂质过氧化的初始阶段诱导出不同的滞后期，但 GSH 产生的诱导期始终比等摩尔 CMTI-SH 短（约两倍）。此外，在第 80 分钟测量的脂质过氧化抑制浓度依赖性显示，与 CMTI-SH 相比，GSH 的 IC50 值要高出约三倍。当培养时间延长至 180 分钟时，在 270 纳米和 302 纳米处的吸光度分别不再发生变化。加入还原剂三（2-羧乙基）膦后，270 纳米处的吸光度峰又转回到 302 纳米处。这些发现表明存在可还原的 CMTI-SH 二硫化物，其明确的结构通过 TLC 保留和光谱数据与合成的 CMTI 二硫化物的一致性得到了证实。当 CMTI-SH 和 GSH 同时存在于脂质体培养液中时，对诱导期的混合效应是协同的，而不是相加的。这是因为 GSH 具有还原 CMTI 二硫化物的能力。用 CMTI 二硫化物保护红细胞免受过氧自由基诱导的氧化损伤的实验也证明了这一发现。总之，CMTI-SH 清除活性氧，生成 CMTI 二硫化物，而 GSH 则使 CMTI-SH 保持还原状态。用 CMTI 二硫化物保护红细胞免受过氧自由基诱导的氧化损伤的实验也证明了这一发现。亮点● 与 GSH 相比，Cemtirestat 能更有效地抑制脂质过氧化；● Cemtirestat 二硫化物被证实是主要的氧化产物；● Cemtirestat 二硫化物能保护红细胞免受氧化损伤；● Cemtirestat 二硫化物很容易被 GSH 还原；● 提出了硫醇-二硫化物交换反应的机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Free Radical Research 生物-生化与分子生物学

CiteScore

6.70

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Free Radical Research publishes high-quality research papers, hypotheses and reviews in free radicals and other reactive species in biological, clinical, environmental and other systems; redox signalling; antioxidants, including diet-derived antioxidants and other relevant aspects of human nutrition; and oxidative damage, mechanisms and measurement.