Comess K M, Burstyn J N, Essigmann J M, Lippard S J
Department of Chemistry, Massachusetts Institute of Technology, Cambridge, 02139.
Biochemistry. 1992 Apr 28;31(16):3975-90. doi: 10.1021/bi00131a013.
A series of site-specifically plantinated, covalently closed circular M13 genomes (7250 bp) was constructed in order to evaluate the consequences of DNA template damage induced by the anticancer drug cis-diamminedichloroplatinum(II) (cis-DDP). Here are reported the synthesis and characterization of genomes containing the intrastrand cross-linked adducts cis-[Pt(NH3)2[d(ApG)-N7(1),-N7(2)]], cis-[Pt-(NH3)2[d(GpCpG)-N7(1),-N7(3)]], and trans-[Pt(NH3)2[d(CpGpCpG)-N3(1),-N7(4)]]. These constructs, as well as the previously reported M13 genome containing a site-specifically placed cis-[Pt(NH3)2[d-(GpG)-N7(1),-N7(2)]] adduct, were used to study replication in vitro. DNA synthesis was initiated from a position approximately 177 nucleotides 3' to the individual adducts, and was terminated either by the adducts or by the end of the template, located approximately 25 nucleotides on the 5' side of the adducts. Analysis of the products of these reactions by gel electrophoresis revealed that, on average, bypass of the cis-DDP adducts occurred approximately 10% of the time and that the cis-[Pt(NH3)2[d(GpG)-N7(1),-N7(2)]] intrastrand cross-link is the most inhibitory lesion. The cis-[Pt(NH3)2[(GpCpG)-N7(1),-N7(3)]] adduct allowed a higher frequency of such translesion synthesis (ca. 25%) for two of the polymerases studied, modified bacteriophage T7 polymerase and Escherichia coli DNA polymerase I (Klenow fragment). These enzymes have either low (Klenow) or no (T7) associated 3' to 5' exonuclease activity. Bacteriophage T4 DNA polymerase, which has a very active 3' to 5' exonuclease, was the most strongly inhibited by all three types of cis-DDP adducts, permitting only 2% translesion synthesis. This enzyme is therefore recommended for replication mapping studies to detect the location of cis-DDP-DNA adducts in a heterologous population. The major replicative enzyme of E. coli, the DNA polymerase III holoenzyme, allowed less than 10% adduct bypass. Postreplication restriction enzyme cleavage studies established that the templates upon which translesion synthesis was observed contained platinum adducts, ruling out the possibility that the observed products were due to a small amount of contamination with unplatinated DNA. The effects on in vitro replication of a recently characterized adduct of trans-DDP [Comess, K. M., Costello, C. E., & Lippard, S. J. (1990) Biochemistry 29, 2102-2110] were also evaluated. This adduct provided a poor block both to DNA polymerases and to restriction enzymes.(ABSTRACT TRUNCATED AT 400 WORDS)
构建了一系列位点特异性铂化的共价闭合环状M13基因组(7250 bp),以评估抗癌药物顺二氯二氨铂(II)(顺铂)诱导的DNA模板损伤的后果。本文报道了含有链内交联加合物顺式-[Pt(NH₃)₂[d(ApG)-N7(1),-N7(2)]]、顺式-[Pt(NH₃)₂[d(GpCpG)-N7(1),-N7(3)]]和反式-[Pt(NH₃)₂[d(CpGpCpG)-N3(1),-N7(4)]]的基因组的合成与表征。这些构建体,以及先前报道的含有位点特异性放置的顺式-[Pt(NH₃)₂[d(GpG)-N7(1),-N7(2)]]加合物的M13基因组,用于体外复制研究。DNA合成从各个加合物3'端约177个核苷酸的位置开始,并由加合物或模板末端终止,模板末端位于加合物5'侧约25个核苷酸处。通过凝胶电泳对这些反应产物的分析表明,平均而言,顺铂加合物的绕过大约发生在10%的时间,并且顺式-[Pt(NH₃)₂[d(GpG)-N7(1),-N7(2)]]链内交联是最具抑制性的损伤。对于所研究的两种聚合酶,即修饰的噬菌体T7聚合酶和大肠杆菌DNA聚合酶I(Klenow片段),顺式-[Pt(NH₃)₂[(GpCpG)-N7(1),-N7(3)]]加合物允许更高频率的这种跨损伤合成(约25%)。这些酶具有低(Klenow)或无(T7)相关的3'到5'外切核酸酶活性。具有非常活跃的3'到5'外切核酸酶的噬菌体T4 DNA聚合酶受到所有三种类型的顺铂加合物的最强烈抑制,仅允许2%的跨损伤合成。因此,推荐该酶用于复制图谱研究,以检测异源群体中顺铂-DNA加合物的位置。大肠杆菌的主要复制酶,DNA聚合酶III全酶,允许不到10%的加合物绕过。复制后限制性内切酶切割研究确定,观察到跨损伤合成的模板含有铂加合物,排除了观察到的产物是由于未铂化DNA的少量污染的可能性。还评估了反式顺铂的一种最近表征的加合物[Comess, K. M., Costello, C. E., & Lippard, S. J. (1990) Biochemistry 29, 并对DNA聚合酶和限制性内切酶都提供了较差的阻断作用。(摘要截断于400字)
