Department of Carcinogenesis, The University of Texas MD Anderson Cancer Center, Smithville, Texas 78957, USA.
Chem Res Toxicol. 2010 Mar 15;23(3):488-96. doi: 10.1021/tx900190j.
Sulfur mustard (bis-(2-chloroethyl)sulfide) has been used in chemical warfare since World War I and is well known as an acutely toxic vesicant. It has been implicated as a carcinogen after chronic low-level exposure and is known to form interstrand cross-links in DNA. Sulfur and nitrogen mustards are currently of interest as potential chemical threat agents for terrorists because of ease of synthesis. Sulfur mustard and monofunctional analogues (half-mustards, 2-[chloroethyl] alkyl sulfides) react as electrophiles, damaging cellular macromolecules, and thus are potentially subject to scavenging by nucleophilic agents. We have determined rate constants for the reaction of four purine derivatives that contain nucleophilic thiol moieties with several sulfur-half-mustards. Three of these compounds, 2,6-dithiopurine, 2,6-dithiouric acid, and 9-methyl-6-mercaptopurine, exhibit facile reaction with the electrophilic mustard compounds. At near neutral pH, these thiopurines are much better nucleophilic scavengers of mustard electrophiles than other low molecular weight thiols such as N-acetyl cysteine and glutathione. Progress curves calculated by numerical integration techniques indicate that equimolar concentrations of thiopurine provide significant reductions in the overall exposure to the episulfonium ions, which are the major reactive, electrophiles produced when sulfur mustards are dissolved in aqueous solution.
硫芥(双-(2-氯乙基)硫醚)自第一次世界大战以来一直被用于化学战,作为一种剧毒的糜烂性毒剂广为人知。它被认为是一种慢性低水平暴露后的致癌物,已知会在 DNA 中形成链间交联。由于易于合成,硫芥和单功能类似物(半芥,2-[氯乙基]烷基硫醚)目前作为潜在的化学威胁剂引起了恐怖分子的兴趣。硫芥和单功能类似物(半芥,2-[氯乙基]烷基硫醚)作为亲电试剂反应,破坏细胞大分子,因此可能受到亲核试剂的清除。我们已经确定了含有亲核巯基部分的四种嘌呤衍生物与几种硫半芥的反应速率常数。这三种化合物,2,6-二硫代嘌呤、2,6-二硫代尿酸和 9-甲基-6-巯基嘌呤,与亲电芥化合物反应非常容易。在近中性 pH 值下,与其他低分子量巯基如 N-乙酰半胱氨酸和谷胱甘肽相比,这些硫嘌呤是亲核性更好的芥亲电体清除剂。通过数值积分技术计算的进展曲线表明,等摩尔浓度的硫嘌呤可显著减少暴露于亲电的环硫离子中,当硫芥溶解在水溶液中时,环硫离子是主要的反应性亲电试剂。