Locus control region activity by 5'HS3 requires a functional interaction with beta -globin gene regulatory elements: expression of novel beta /gamma -globin hybrid transgenes

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Blood, Vol. 95 No. 10 (May 15), 2000: pp. 3242-3249

Locus control region activity by 5'HS3 requires a functional interaction with $beta$ -globin gene regulatory elements: expression of novel $beta$ / $gamma$ -globin hybrid transgenes

Joel E. Rubin, Peter Pasceri, Xiumei Wu, Philippe Leboulch, and James Ellis
From the Program in Developmental Biology, and Cancer and Blood Research Program, Hospital for Sick Children, Toronto, and the Department of Molecular and Medical Genetics, University of Toronto, Ontario, Canada; and the Massachusetts Institute of Technology, Division of Health Sciences & Technology, Cambridge, and Harvard Medical School and Division of Hematology, Department of Medicine, Brigham & Women's Hospital, Boston, MA.
The human $beta$ -globin locus control region (LCR) contains chromatin opening and transcriptional enhancement activities that areimportant to include in $beta$ -globin gene therapy vectors. We previouslyused single-copy transgenic mice to map chromatin opening activityto the 5'HS3 LCR element. Here, we test novel hybrid globin genesto identify $beta$ -globin gene sequences that functionally interactwith 5'HS3. First, we show that an 850-base pair (bp) 5'HS3 elementactivates high-level $beta$ -globin gene expression in fetal liversof 17 of 17 transgenic mice, including 3 single-copy animals,but fails to reproducibly activate A $gamma$ -globin transgenes. To identifythe $beta$ -globin gene sequences required for LCR activity by 5'HS3,we linked the 815-bp $beta$ -globin promoter to A $gamma$ -globin coding sequences(BGT34), together with either the $beta$ -globin intron 2 (BGT35), the $beta$ -globin 3' enhancer (BGT54), or both intron 2 and the 3' enhancer(BGT50). Of these transgenes, only BGT50 reproducibly expressesA $gamma$ -globin RNA (including 7 of 7 single-copy animals, averaging71% per copy). Modifications to BGT50 show that LCR activity isdetected after replacing the $beta$ -globin promoter with the 700-bpA $gamma$ -globin promoter, but is abrogated when an AT-rich region isdeleted from $beta$ -globin intron 2. We conclude that LCR activityby 5'HS3 on globin promoters requires the simultaneous presenceof $beta$ -globin intron 2 sequences and the 260-bp 3' $beta$ -globin enhancer.The BGT50 construct extends the utility of the 5'HS3 element toinclude erythroid expression of nonadult $beta$ -globin coding sequencesin transgenic animals and its ability to express antisickling $gamma$ -globin coding sequences at single copy are ideal characteristicsfor a gene therapycassette.

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  Copyright © 2000 by American Society of Hematology         Online ISSN: 1528-0020





	Copyright © 2000 by American Society of Hematology Online ISSN: 1528-0020

Locus control region activity by 5'HS3 requires a functional interaction with -globin gene regulatory elements: expression of novel /-globin hybrid transgenes

Locus control region activity by 5'HS3 requires a functional interaction with $beta$ -globin gene regulatory elements: expression of novel $beta$ / $gamma$ -globin hybrid transgenes