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Molecular and Cellular Biology, February 2000, p. 868-877, Vol. 20, No. 3
Division of Molecular Medicine, Beckman
Research Institute of the City of Hope National Medical Center, Duarte,
California 91010,1 and Ernest Orlando
Lawrence Berkeley National Laboratory, Life Sciences Division,
University of California, Berkeley, California 947202
Received 17 May 1999/Returned for modification 6 July 1999/Accepted 22 October 1999
The t(14,18) chromosomal translocation that occurs in human
follicular lymphoma constitutively activates the BCL2 gene
and disrupts control of apoptosis. Interestingly, 70% of the t(14,18) translocations are confined to three 15-bp clusters positioned within a
150-bp region (major breakpoint region or [MBR]) in the untranslated
portion of terminal exon 3. We analyzed DNA-protein interactions in the
MBR, as these may play some role in targeting the translocation to this
region. An 87-bp segment (87MBR) immediately 3' to breakpoint cluster 3 was essential for DNA-protein interaction monitored with mobility shift
assays. We further delineated a core binding region within 87MBR: a
33-bp, very AT-rich sequence highly conserved between the human and
mouse BCL2 gene (37MBR). We have purified and identified
one of the core factors as the matrix attachment region (MAR) binding
protein, SATB1, which is known to bind to AT-rich sequences with a high
propensity to unwind. Additional factors in nuclear extracts, which we
have not yet characterized further, increased SATB1 affinity for the
37MBR target four- to fivefold. Specific binding activity within 37MBR displayed cell cycle regulation in Jurkat T cells, while levels of
SATB1 remained constant throughout the cell cycle. Finally, we
demonstrated in vivo binding of SATB1 to the MBR, strongly suggesting
the BCL2 major breakpoint region is a MAR. We discuss the
potential consequences of our observations for both MBR fragility and
regulatory function.
0270-7306/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.
Modulated Binding of SATB1, a Matrix Attachment
Region Protein, to the AT-Rich Sequence Flanking the Major Breakpoint
Region of BCL2
*
Corresponding author. Mailing address: Division of
Molecular Medicine, Beckman Research Institute, City of Hope National
Medical Center, 1500 E. Duarte Rd., Duarte, CA 91010-3000. Phone: (626) 359-8111, ext. 4297. Fax: (626) 301-8862. E-mail:
tkrontir{at}coh.org.
Molecular and Cellular Biology, February 2000, p. 868-877, Vol. 20, No. 3
0270-7306/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.
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