Journal
MOLECULAR CANCER THERAPEUTICS
Volume 8, Issue 5, Pages 1363-1377Publisher
AMER ASSOC CANCER RESEARCH
DOI: 10.1158/1535-7163.MCT-08-1093
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Funding
- NIH [HL62969, CA94166, CA95060]
- DOE [W-31-109-Eng-38]
- NCRR [RR07707]
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The formation of G-quadruplex structures within the nuclease hypersensitive element (NHE) III1 region of the c-myc promoter and the ability of these structures to repress c-myc transcription have been well established. However, just how these extremely stable DNA secondary structures are transformed to activate c-myc transcription is still unknown. NM23-H2/nucleoside diphosphate kinase B has been recognized as an activator of c-myc transcription via interactions with the NHE III1 region of the c-myc gene promoter. Through the use of RNA interference, we confirmed the transcriptional regulatory role of NM23-H2. In addition, we find that further purification of NM23-H2 results in loss of the previously identified DNA strand cleavage activity, but retention of its DNA binding activity. NM23-H2 binds to both single-stranded guanine- and cytosine-rich strands of the c-myc NHE III1 and, to a lesser extent, to a random single-stranded DNA template. However, it does not bind to or cleave the NHE III1 in duplex form. Significantly, potassium ions and compounds that stabilize the G-quadruplex and i-motif structures have an inhibitory effect on NM23-H2 DNA-binding activity. Mutation of Arg(88) to Ala(88) (R88A) reduced both DNA and nucleotide binding but had mini mal effect on the NM23-H2 crystal structure. On the basis of these data and molecular modeling studies, we have proposed a step-wise trapping-out of the NHE III1 region in a single-stranded form, thus allowing single-stranded transcription factors to bind and activate c-myc transcription. Furthermore, this model provides a rationale for how the stabilization of the G-quadruplex or i-motif structures formed within the c-myc gene promoter region can inhibit NM23-H2 from activating c-myc gene expression. [Mol Cancer Ther 2009;8(5):1363-77]
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