铂类络合物引起的DNA O^6-AGT的耗竭及染色体损伤

本文测定了KB,CHL,HL-60和L1210细胞DNA鸟嘌呤O^6-烷基转移酶(O^6-AGT)活性。结果表明,KB细咆有较高的O^6-AGT活性,系Mer^+细胞。而CHL,HL-60和L1210细胞的O^6-AGT活性低,属于Mer^-细胞。在此基础上我们观察了顺铂(DDP)、宁辛铂(樟脑胺氯乙酸铂,CCP)和碳铂(JM-8)对KB(Mer^+)细胞O^6-AGT的影响及Mer^+和Mer^-细胞的杀伤及微核的诱发作用。结果表明,三种络合物在等毒性浓度下对O^6-AGT耗竭程序是CCP>DDP>JM-8,但这种耗竭与杀细胞作用无明显相关性而与微核诱发作用相关。此结果提示铂类络合物对DNA鸟嘌呤O^6的损伤可能是其致痛致突变的原因之一。

Expression of O⁶-Methylguanine-DNA Methyltransferase Examined by Alkyl-Transfer Assays, Methylation-Specific PCR and Western Blots in Tumors and Matched Normal Tissue

The tumor selectivity of alkylating agents that produce guanine O6-chloroethyl (laromustine and carmustine) and O6-methyl (temozolomide) lesions depends upon O6-methylguanine-DNA methyltransferase (MGMT) activity being lower in tumor than in host tissue. Despite the established role of MGMT as a tumor resistance factor, consensus on how to assess MGMT expression in clinical samples is unsettled. The aim of this study is to examine the relationship between the values derived from distinctive MGMT measurements in 13, 12, 6 and 2 pairs of human tumors and matched normal adjacent tissue from the colon, kidney, lung and liver, respectively, and in human cell lines. The MGMT measurements included 1) alkyl-transfer assays using [benzene-3H]O6-benzylguanine as a substrate to assess functional MGMT activity, 2) methylation-specific PCR (MSP) to probe MGMT gene promoter CpG methylations as a measure of gene silencing, and 3) western immunoblots to analyze the MGMT protein. In human cell lines, a strict negative correlation existed between MGMT activity and the extent of promoter methylation. In tissue specimens, by contrast, the correlation between these two variables was low. Moreover, alkyl-transfer assays identified 3 pairs of tumors and normal tissue with tumor-selective reduction in MGMT activity in the absence of promoter methylation. Cell line MGMT migrated as a single band in western analyses, whereas tissue MGMT was heterogeneous around its molecular size and at much higher molecular masses, indicative of multi-layered post-translational modifications. Malignancy is occasionally associated with a mobility shift in MGMT. Contrary to the prevalent expectation that MGMT expression is governed at the level of gene silencing, these data suggest that other mechanisms that can lead to tumorselective reduction in MGMT activity exist in human tissue.

O^(6)-苄基鸟嘌呤增强1,3-二(2-氯乙基)-亚硝基脲对人肝癌细胞及其移植瘤的抗肿瘤作用(英文)

应用噻唑蓝 (MTT)法检测 O6-苄基鸟嘌呤(O6- BG)与 1 ,3-二 (2 -氯乙基 ) -亚硝基脲 (BCNU)合用的细胞毒作用及透射电镜检测凋亡细胞的方法研究了 O6- BG对 O6-烷基鸟嘌呤 - DNA烷基转移酶(O6- AGT )阳性的人肝癌细胞 SMMC- 772 1对BCNU细胞毒作用敏感性的影响及其与 BCNU合用治疗移植瘤的协同效果 .结果显示 :1 .5- 6.0 mg· L-1的 O6- BG预先作用 2 h后 ,SMMC- 772 1细胞对 BCNU的敏感性明显增加 ;0 .75- 6.0 mg· L-1的 O6- BG可完全快速地抑制肿瘤细胞的 AGT活性并持续 1 2 h;ip 90 mg· kg-1的 O6- BG预处理 2 h后给予 2 5mg·kg-1的 BCNU治疗 ,可使动物 sc接种的人肝癌移植瘤生长延迟 38.6d,诱导肿瘤细胞凋亡 ,并且可明显抑制肿瘤组织的转移酶活性 .说明 O6- BG与 BCNU合用于

河南食管癌高发区AGT Exon3与食管癌高易感性关系分析

目的探讨AGTExon3与食管癌高易感性之间的关系。方法聚合酶链反应(PCR)法,PCR基础上的限制性片段多态(PCR-RFLP)检测法及单链构象多态性分析(PCR-SSCP)检测法检测275例食管癌患者血标本抽提DNA,以正常血标本抽提DNA315例为对照。结果AGT第三外显子(AGTExon3)突变型携带者患ESCC的危险度比野生型携带者升高4.876倍(95%CI,3.248￣7.319)。将AGTExon3各基因型组合考查河南安阳地区人群患ESCC的结合危险度。在ESCC组,AGTExon30R值为0.1166,性别OR值为93.558,年龄为1.0703,具有统计学显著性意义。结论AGTExon3突变型基因型显著增加河南安阳地区人群ESCC的易感性,而DNA损伤修复酶基因缺陷可能是导致食管癌变的重要途径。

AGT介导的氯乙基亚硝基脲耐药作用机理的密度泛函理论研究

氯乙基亚硝基脲(CENUs)是一类重要的抗癌烷化剂,通过导致DNA互补鸟嘌呤-胞嘧啶之间的共价交联(GC交联)发挥抗肿瘤作用。然而,O^6-烷基鸟嘌呤-DNA烷基转移酶(AGT)对DNA烷化损伤的修复作用能够导致肿瘤细胞对CENUs产生耐药性。使用密度泛函理论(DFT)方法结合分子对接对AGT介导的CENUs耐药机制进行研究。结果表明,AGT能够与CENUs导致GC交联的两个前体物——O^6-氯乙基鸟嘌呤(O^6-ClEtG)和N1,O^6-桥亚乙基鸟嘌呤(N1,O^6-EtG)结合形成复合物,然后通过氢迁移和烷基转移两步反应,对这两个前体物进行修复,从而阻断GC交联的形成。在AGT对两个前体物的修复过程中,N1,O^6-EtG的修复在动力学和热力学上比O^6-ClEtG的修复均具有优势,但O^6-ClEtG更有利于与AGT形成复合物。阐明了AGT介导的CENUs耐药机制,这将为开发AGT抑制剂用于与CENUs联合用药以消除耐药性提供重要的理论依据。

人O^6-烷基鸟嘌呤-DNA烷基转移酶突变体对O^6-苄基鸟嘌呤耐药性的研究

目的 探讨人O6 烷基鸟嘌呤 DNA烷基转移酶 (O6 alkylguanine DNAalkyltransferase ,O6 AGT)中单个氨基酸的改变对O6 苄基鸟嘌呤 (O6 benzylguanine ,O6 BG)抑制作用敏感性的影响。方法应用定点诱导突变的方法 ,将人AGT的第 15 6位点的甘氨酸突变为丙氨酸 ,第 140位点的脯氨酸突变为丙氨酸 ,并检测了重组蛋白的活性。结果 点突变G15 6A和P140A的重组蛋白的AGT活性分别为(2 44± 90 )fmol/mg和 (2 31± 48)fmol/mg蛋白 ,与野生型AGT活性 (2 2 3± 35 )fmol/mg蛋白相近 ,并且对O6 BG具有耐药性。O6 BG对突变后的G15 6A AGT和P140A AGT的IC50 分别为 7.2 0 μg/ml和 0 .92 μg/ml,而对野生型AGT的IC50 为 0 .0 6 8μg/ml,耐药性分别提高了 10 5 .8及 13.5倍。 结论 应用G15 6A和P140A基因转导 。