{beta}-Globin locus control region HS2 and HS3 interact structurally and functionally

doi:10.1093/nar/gkg217

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Nucleic Acids Research, 2003, Vol. 31, No. 4 1180-1190
© 2003 Oxford University Press

ß-Globin locus control region HS2 and HS3 interact structurally and functionally

David A. Jackson, Jennifer C. McDowell and Ann Dean^*

Laboratory of Cellular and Developmental Biology, NIDDK, NIH, Bethesda, MD 20892-2715, USA

*To whom correspondence should be addressed at Building 50, Room 3154, 50 South Drive, MSC 8028, Bethesda, MD 20892-8028, USA. Tel: +1 301 496 6068; Fax: +1 301 496 5239; Email: anndean{at}helix.nih.gov
Present addresses:
David A. Jackson, The US Army Center for Environmental Health Research, Fort Detrick, MD, USA
Jennifer C. McDowell, NIH Intramural Sequencing Center, NHGRI, NIH, Bethesda, MD, USA

The overall structure of the DNase I hypersensitive sites (HSs)that comprise the ß-globin locus control region (LCR)is highly conserved among mammals, implying that the HSs haveconserved functions. However, it is not well understood howthe LCR HSs, either individually or collectively, activate transcription.We analyzed the interactions of HS2, HS3 and HS4 with the human ${epsilon}$ - and ß-globin genes in chromatinized episomes infetal/embryonic K562 cells. Only HS2 activates transcriptionof the ${epsilon}$ -globin gene, while all three HSs activate the ß-globingene. HS3 stimulates the ß-globin gene constitutively,but HS2 and HS4 transactivation requires expression of the transcriptionfactor EKLF, which is not present in K562 cells but is requiredfor ß-globin expression in vivo. To begin addressinghow the individual HSs may interact with one another in a complex,we linked the ß-globin gene to both the HS2 and HS3.HS2 and HS3 together resulted in synergistic stimulation ofß-globin transcription. Unexpectedly, mutated, inactiveforms of HS2 impeded the activation of the ß-globingene by HS3. Thus, there appear to be distinct interactionsamong the HSs and between the HSs and the globin genes. Thesepreferential, non-exclusive interactions may underlie an importantstructural and functional cooperativity among the regulatorysequences of the ß-globin locus in vivo.

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