B Zhang scite author profile

B Zhang

2Publications

84Citation Statements Received

143Citation Statements Given

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140

Affiliations

Cancer Research Center, Boston University

Publications

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Reprogramming of the SWI/SNF complex for co-activation or co-repression in prohibitin-mediated estrogen receptor regulation

et al. 2007

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The SWI/SNF complex participates as a co-activator in the transcriptional regulation of certain genes. Conversely, we and others have recently established that Brg1 and Brm, the central components of SWI/SNF, act instead as co-repressors for E2F-mediated transcriptional repression, and for the transcription of certain other promoters. We report here that Brg-1 and Brm can switch their mode of function at same promoter between activation and repression by ligand-directed differential coordination with BAF155, BAF170, HDAC1, p300 and prohibitin. This ligand and context-dependent reprogramming of the SWI/SNF complex allows it to differentially serve as either a co-repressor or a co-activator of transcription at the same promoter.

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Requirement for chromatin-remodeling complex in novel tumor suppressor HIC1-mediated transcriptional repression and growth control

et al. 2008

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HIC1 is a newly discovered tumor suppressor and transcriptional repressor that is frequently silenced in human tumors. HIC1 protein expression has been linked to better outcomes in breast cancers. The molecular mechanism underlying HIC1-mediated transcriptional and growth suppression, and the relevant targets of HIC1-mediated transcriptional modulation, is currently unclear. We have identified an HIC1 DNA-binding site in E2F-responsive gene promoters and demonstrate that HIC1 targets E2F-responsive genes for transcriptional regulation and growth suppression. We and others have recently discovered that Brg1, a central component of the SWI/ SNF chromatin-remodeling family, is required for the transcriptional regulation of multiple cell cycle controlrelated genes, including E2F-responsive promoters. We studied HIC1 interactions with, and dependence upon, Brg1 activity, and found that HIC1 can recruit Brg1 to E2F-responsive promoters and that its transcriptional repression of these genes is dependent upon Brg1. These data indicate that HIC1 is a central molecule in a novel mechanism controlling cell growth and that the disruption of this HIC1-mediated pathway may lead to abnormal cell proliferation and, ultimately, cancer.

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B Zhang

Reprogramming of the SWI/SNF complex for co-activation or co-repression in prohibitin-mediated estrogen receptor regulation

Requirement for chromatin-remodeling complex in novel tumor suppressor HIC1-mediated transcriptional repression and growth control

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