Abstract
To investigate the mechanisms governing the expression of DNA topoisomerase II alpha, the Chinese hamster topoisomerase II alpha gene has been cloned and the promoter region analyzed. There are several transcriptional start sites clustered in a region of 30 base pairs, with the major one being 102 nucleotides upstream from the ATG translation initiation site. Sequencing data reveal one GC box and a total of five inverted CCAAT elements (ICEs) within a region of 530 base pairs upstream from the major transcription start site. Sequence comparison between the human and Chinese hamster topoisomerase II alpha gene promoter regions shows a high degree of homology centered at the ICEs and GC box. In vitro DNase I footprinting results indicate protection by binding proteins at and around each ICE on both DNA strands. However, no obvious protection was observed for the GC box. Competition gel mobility shift assays with oligonucleotides containing either the wild-type or mutated ICE sequences suggest that identical or similar proteins specifically bind at each ICE, although with different affinities for individual ICE sequences. Chloramphenicol acetyltransferase assays employing nested 5'-deletions of the 5'-flanking sequence of the gene demonstrate that the sequence between -186 and +102, which contains three proximal ICEs, is sufficient for near wild-type level of promoter activity. When these three ICEs were gradually replaced with sequences which do not interact with the binding proteins, reducing promoter activity of the resulted constructs was observed. In conjunction with results from footprinting and gel mobility shift studies, the transient gene expression finding suggests that the ICEs are functionally important for the transcriptional regulation of the topoisomerase II alpha gene.
Highlights
Mammalian DNA topoisomerase II (Top II)1 is an essential nuclear enzyme which changes the topology of DNA by passing an intact helix through a transient double-stranded break made in a second helix followed by religation of the DNA break
Cloning of the 5Ј-Flanking Region of the Chinese Hamster topII␣ gene—The Chinese hamster genomic library was screened under stringent conditions with either the pC431 (5Ј-end of the cDNA) probe, or the pC42 probe, of the CHO top II␣ cDNA [25]
A total of six overlapping genomic clones were isolated. (The structure of the top II␣ gene will be described in detail elsewhere.) The clone Top II-93 is the only clone which hybridized to the 5Ј-end cDNA probe and not to the pC42 probe
Summary
Mammalian DNA topoisomerase II (Top II) is an essential nuclear enzyme which changes the topology of DNA by passing an intact helix through a transient double-stranded break made in a second helix followed by religation of the DNA break (reviewed in Refs. 1 and 2). Top II function is the covalent attachment of the enzyme to the 5Ј-termini of DNA breaks via a tyrosine-DNA phosphodiester linkage. Use of specific antibodies has demonstrated that Top II is a major component of the mitotic chromosomes and the interphase nuclear-matrix fractions [7]. Top II is the target of several classes of anti-cancer drugs such as anthracyclines, amsacrine, and epipodophyllotoxins. These drugs stabilize the cleavable complex formed between Top II protein and DNA, resulting in increased DNA scission and concomitant inhibition of the rejoining reaction [9]. It is likely that lower Top II levels result in fewer drug-induced DNA lesions and diminished cytotoxicity of Top II-targeting drugs [14, 15]. A correlation between cellular expression of Top II and the in vitro sensitivity to Top II active anti-tumor drugs has been found in a VM-26-resistant human cancer KB cell line [16], the 9-hydroxyellipticine-resistant Chinese hamster lung fibroblast cell line DC3F/9-OHE [10, 17], and in a panel of seven human lung cancer cell lines [18]
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