The role of trans-acting factors and DNA-bending in the silencing of human {beta}-globin gene expression

doi:10.1093/nar/28.14.2823

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Nucleic Acids Research, 2000, Vol. 28, No. 14 2823-2830
© 2000 Oxford University Press

The role of trans-acting factors and DNA-bending in the silencing of human ß-globin gene expression

LaShawn R. Drew, Delia C. Tang, Patricia E. Berg¹ and Griffin P. Rodgers^*

Molecular and Clinical Hematology Branch, National Institute of Diabetes, Digestive and Kidney Diseases, National Institutes of Health, Building 10, Room 9N115, 10 Center Drive, Bethesda, MD 20892, USA and ¹Department of Biochemistry and Molecular Biology, The George Washington University Medical Center, Washington, DC, USA

The molecular mechanisms which govern the developmentalspecificity of human ß-globin gene transcription havebeen studied in K562 cells, a human eyrthroleukemia line thatexpresses minimal ß-globin. Protein-binding analysis revealsthat the 5' region contains three elements bound by trans-actingfactors, beta-protein 1 (BP1) and beta-protein 2 (BP2). In vitromutagenesis of each individual element in a beta-globin vectorcontaining chloramphenicol acetyltransferase (pCAT) followedby transient transfection into K562 cells increased levels ofCAT activity 5.5-fold higher than wild-type (wt) ßCAT,consistent with their silencing role. Mutagenesis of all threeelements, however, resulted in activity significantly lowerthan wt ßCAT. BP1 and BP2 motifs have overlapping bindingsites for high mobility group proteins (HMG1+2), DNA-bendingfactors, shown here to extrinsically bend the ß-globinpromoter. Theoretically, mutations in all beta-protein bindingsites could affect the binding of HMG1+2 sufficiently to impedeDNA–protein and/or protein–protein interactionsneeded to facilitate constitutive gene expression. Placing twoturns of DNA between BP1 and BP2 motifs also increased expression3-fold, indicative of spatial constraints required for optimalsilencing. However, insertion of the HMG1+2 DNA-bending motif(also equivalent to two turns) facilitates ß-silencingby re-establishment of BP1–BP2 proximity. Thus a combinationof general DNA-bending and specific transcriptional factorsappear to be involved in ß-globin silencing in the embryonic/fetalerythroid stage.

^* To whom correspondence should be addressed. Tel: +1 301 4960299; Fax: +1 301 480 1373; Email: gprod@helix.nih.gov

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