Junker Hans-Dieter, Hoehn Silvia T, Bunt Richard C, Marathius Vasilios, Chen Jingyang, Turner Christopher J, Stubbe JoAnne
Department of Chemistry, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139, USA.
Nucleic Acids Res. 2002 Dec 15;30(24):5497-508. doi: 10.1093/nar/gkf681.
Bleomycins (BLMs) are antitumor antibiotics that in the presence of iron and oxygen mediate DNA damage by 4'-hydrogen atom abstraction of pyrimidines 3' to guanines. The resulting 4'-deoxyribose radicals can be trapped by O2 and ultimately result in the formation of base-propenal and gapped DNA with 3'-phosphoglycolate (3'-PG) and 5'-phosphate (5'-P) ends. The role of this lesion in triggering double-strand cleavage of duplex DNA by a single BLM molecule and the mechanism by which this lesion is repaired in vivo remain unsolved problems. The structure of these lesions is an essential step in addressing both of these problems. Duplex DNAs (13mers containing tethered hexaethylene glycol linkers) with GTAC and GGCC cleavage sites have been synthesized in which gaps containing 3'-PG and 5'-P ends at the sites of BLM cleavage have been inserted. The former sequence represents a hot spot for double-strand cleavage, while the latter is a hot spot for single-strand cleavage. Analytical methods to characterize the lesioned products have been developed. These oligonucleotides have been examined using 2D NMR methods and molecular modeling. The studies reveal that the lesioned DNAs are B-form and the 3'-PG and 5'-P are extrahelical. The base opposite the gap and the base pairs adjacent to the gap remain well stacked in the DNA duplex. Titrations of the lesioned GGCC oligomer with HOO-CoBLM leads to a mixture of complexes, in contrast to results of a similar titration with the lesioned GTAC oligomer.
博来霉素(BLMs)是一类抗肿瘤抗生素,在铁和氧存在的情况下,通过对鸟嘌呤3'位嘧啶的4'-氢原子提取介导DNA损伤。产生的4'-脱氧核糖自由基可被O2捕获,最终导致碱基丙烯醛的形成以及具有3'-磷酸乙醇酸(3'-PG)和5'-磷酸(5'-P)末端的缺口DNA的形成。这种损伤在触发单个BLM分子对双链DNA进行双链切割中的作用以及这种损伤在体内的修复机制仍然是未解决的问题。这些损伤的结构是解决这两个问题的关键步骤。已经合成了具有GTAC和GGCC切割位点的双链DNA(包含连接的六甘醇接头的13聚体),其中在BLM切割位点插入了含有3'-PG和5'-P末端的缺口。前一个序列代表双链切割的热点,而后一个是单链切割的热点。已经开发了表征损伤产物的分析方法。使用二维核磁共振方法和分子建模对这些寡核苷酸进行了研究。研究表明,损伤的DNA呈B型,3'-PG和5'-P处于螺旋外状态。缺口对面的碱基以及与缺口相邻的碱基对在DNA双链体中仍保持良好的堆积状态。与用损伤的GTAC寡聚物进行类似滴定的结果相反,用HOO-CoBLM对损伤的GGCC寡聚物进行滴定会产生复合物混合物。