Loss of FBP function arrests cellular proliferation and extinguishes c-myc expression

Liusheng He, Juhong Liu, Irene Collins, Suzanne Sanford, Brian O'Connell, Craig J. Benham, David Levens

Research output: Contribution to journalArticlepeer-review

139 Scopus citations

Abstract

The c-myc regulatory region includes binding sites for a large set of transcription factors. The present studies demonstrate that in the absence of FBP [far upstream element (FUSE)-binding protein], which binds to the single-stranded FUSE, the remainder of the set fails to sustain endogenous c-myc expression. A dominant-negative FBP DNA-binding domain lacking effector activity or an antisense FBP RNA, expressed via replication-defective adenovirus vectors, arrested cellular proliferation and extinguished native c-myc transcription from the Fl and P2 promoters. The dominant-negative FBP initially augmented the single-stranded character of FUSE; however, once c-myc expression was abolished, melting at FUSE could no longer be supported. In contrast, with antisense FBP RNA, the single-stranded character of FUSE decreased monotonically as the transcription of endogenous c-myc declined. Because transcription is the major source of super-coiling in vivo, we propose that by binding torsionally strained DNA, FBP measures promoter activity directly. We also show that FUSE is predicted to behave as a torsion-regulated switch poised to regulate c-myc and to confer a higher order regulation on a large repertoire of factors.

Original languageEnglish
Pages (from-to)1034-1044
Number of pages11
JournalEMBO Journal
Volume19
Issue number5
DOIs
StatePublished - 1 Mar 2000

Keywords

  • C-myc
  • Cell growth
  • FUSE-binding protein
  • Far upstream element

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