Pommier Y, Schwartz R E, Kohn K W, Zwelling L A
Biochemistry. 1984 Jul 3;23(14):3194-201. doi: 10.1021/bi00309a013.
The biochemical characteristics of the formation and disappearance of intercalator-induced DNA double-strand breaks (DSB) were studied in nuclei from mouse leukemia L1210 cells by using filter elution methodology [Bradley, M. O., & Kohn, K.W. (1979) Nucleic Acids Res. 7, 793-804]. The three intercalators used were 4'-(9-acridinylamino)-methanesulfon-m-anisidide (m-AMSA), 5-iminodaunorubicin (5-ID), and ellipticine. These compounds differ in that they produced predominantly DNA single-strand breaks (SSB) (m-AMSA) or predominantly DNA double-strand breaks (ellipticine) or a mixture of both SSB and DSB (5-ID) in whole cells. In isolated nuclei, each intercalator produced DSB at a frequency comparable to that which is produced in whole cells. Moreover, these DNA breaks reversed within 30 min after drug removal. It thus appeared that neither ATP nor other nucleotides were necessary for intercalator-dependent DNA nicking-closing reactions. The formation of the intercalator-induced DSB was reduced at ice temperature. Break formation was also reduced in the absence of magnesium, at a pH above 6.4 and at NaCl concentrations above 200 mM. In the presence of ATP and ATP analogues, the intercalator-induced cleavage was enhanced. These results suggest that the intercalator-induced DSB are enzymatically mediated and that the enzymes involved in these reactions can catalyze DNA double-strand cleavage and rejoining in the absence of ATP, although the occupancy of an ATP binding site might convert the enzyme to a form more reactive to intercalators. Three inhibitors of DNA topoisomerase II--novobiocin, nalidixic acid, and norfloxacin--reduced the formation of DNA strand breaks.(ABSTRACT TRUNCATED AT 250 WORDS)
利用滤膜洗脱法[布拉德利,M. O.,& 科恩,K. W.(1979年)《核酸研究》7卷,793 - 804页],研究了嵌入剂诱导的DNA双链断裂(DSB)在小鼠白血病L1210细胞核中的形成和消失的生化特性。所使用的三种嵌入剂分别是4'-(9-吖啶基氨基)-甲磺酰基间茴香胺(m-AMSA)、5-亚氨基柔红霉素(5-ID)和椭圆玫瑰树碱。这些化合物的不同之处在于,它们在全细胞中主要产生DNA单链断裂(SSB)(m-AMSA),或主要产生DNA双链断裂(椭圆玫瑰树碱),或产生SSB和DSB的混合物(5-ID)。在分离的细胞核中,每种嵌入剂产生DSB的频率与在全细胞中产生的频率相当。此外,这些DNA断裂在药物去除后30分钟内逆转。因此,似乎嵌入剂依赖性DNA切口-封闭反应既不需要ATP也不需要其他核苷酸。在冰温下,嵌入剂诱导的DSB的形成减少。在没有镁的情况下、pH高于6.4时以及NaCl浓度高于200 mM时,断裂形成也减少。在ATP和ATP类似物存在的情况下,嵌入剂诱导的切割增强。这些结果表明,嵌入剂诱导的DSB是由酶介导的,并且参与这些反应的酶可以在没有ATP的情况下催化DNA双链切割和重新连接,尽管ATP结合位点的占据可能会将酶转化为对嵌入剂更具反应性的形式。三种DNA拓扑异构酶II抑制剂——新生霉素、萘啶酸和诺氟沙星——减少了DNA链断裂的形成。(摘要截稿于250词)
