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《Epigenetics》2013,8(2):64-68
The SWI/SNF complex is a chromatin-remodeling complex that uses the energy of ATP hydrolysis to modify chromatin structure in order to regulate gene expression. The SWI/SNF complex is evolutionarily conserved in all eukaryotes and is comprised of a catalytic subunit, either of BRG1 (also known as SMARCA4) or of BRM (also known as SMARCA2), and a variety of associated proteins that can modulate the recruitment of the complex and its activity. Key observations link the SWI/SNF complex with cancer. First, two of its subunits (SNF5 and BRG1) bear cancer-inactivating mutations and thus are bona fide tumor suppressors. The SNF5 gene is biallelically inactivated in malignant rhabdoid tumors (MRTs) whereas BRG1 is mutated in cancer cell lines of several types, such as those of the breast, prostate, lung, pancreas and colon. Second, mice heterozygous for mutations at Snf5 and Brg1 are cancer-prone, and, third, BRG1 binds or is related to important tumor-suppressor proteins. The present review focuses on the biological function and genetics of BRG1, particularly with respect to its role as a tumor suppressor.  相似文献   

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Collectively, genes encoding subunits of the SWI/SNF (BAF) chromatin remodeling complex are mutated in 20% of all human cancers, with the SMARCA4 (BRG1) subunit being one of the most frequently mutated. The SWI/SNF complex modulates chromatin remodeling through the activity of two mutually exclusive catalytic subunits, SMARCA4 and SMARCA2 (BRM). Here, we show that a SMARCA2-containing residual SWI/SNF complex underlies the oncogenic activity of SMARCA4 mutant cancers. We demonstrate that a residual SWI/SNF complex exists in SMARCA4 mutant cell lines and plays essential roles in cellular proliferation. Further, using data from loss-of-function screening of 165 cancer cell lines, we identify SMARCA2 as an essential gene in SMARCA4 mutant cancer cell lines. Mechanistically, we reveal that Smarca4 inactivation leads to greater incorporation of the nonessential SMARCA2 subunit into the SWI/SNF complex. Collectively, these results reveal a role for SMARCA2 in oncogenesis caused by SMARCA4 loss and identify the ATPase and bromodomain-containing SMARCA2 as a potential therapeutic target in these cancers.  相似文献   

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The ATPase subunits of the SWI/SNF chromatin remodeling enzymes, Brahma (BRM) and Brahma‐related gene 1 (BRG1), can induce cell cycle arrest in BRM and BRG1 deficient tumor cell lines, and mice heterozygous for Brg1 are pre‐disposed to breast tumors, implicating loss of BRG1 as a mechanism for unregulated cell proliferation. To test the hypothesis that loss of BRG1 can contribute to breast cancer, we utilized RNA interference to reduce the amounts of BRM or BRG1 protein in the nonmalignant mammary epithelial cell line, MCF‐10A. When grown in reconstituted basement membrane (rBM), these cells develop into acini that resemble the lobes of normal breast tissue. Contrary to expectations, knockdown of either BRM or BRG1 resulted in an inhibition of cell proliferation in monolayer cultures. This inhibition was strikingly enhanced in three‐dimensional rBM culture, although some BRM‐depleted cells were later able to resume proliferation. Cells did not arrest in any specific stage of the cell cycle; instead, the cell cycle length increased by approximately 50%. Thus, SWI/SNF ATPases promote cell cycle progression in nonmalignant mammary epithelial cells. J. Cell. Physiol. 223:667–678, 2010. © 2010 Wiley‐Liss, Inc.  相似文献   

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CHD7 is a member of the chromodomain helicase DNA binding domain (CHD) family of ATP-dependent chromatin remodelling enzymes. It is mutated in CHARGE syndrome, a multiple congenital anomaly condition. CHD7 is one of a subset of CHD proteins, unique to metazoans that contain the BRK domain, a protein module also found in the Brahma/BRG1 family of helicases. We describe here the NMR solution structure of the two BRK domains of CHD7. Each domain has a compact betabetaalphabeta fold. The second domain has a C-terminal extension consisting of two additional helices. The structure differs from those of other domains present in chromatin-associated proteins.  相似文献   

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Glioblastoma (GBM) is an aggressive brain cancer with a poor prognosis. While surgical resection is the primary treatment, adjuvant temozolomide (TMZ) chemotherapy and radiotherapy only provide slight improvement in disease course and outcome. Unfortunately, most treated patients experience recurrence of highly aggressive, therapy-resistant tumours and eventually succumb to the disease. To increase chemosensitivity and overcome therapy resistance, we have modified the chemical structure of the PFI-3 bromodomain inhibitor of the BRG1 and BRM catalytic subunits of the SWI/SNF chromatin remodelling complex. Our modifications resulted in compounds that sensitized GBM to the DNA alkylating agent TMZ and the radiomimetic bleomycin. We screened these chemical analogues using a cell death ELISA with GBM cell lines and a cellular thermal shift assay using epitope tagged BRG1 or BRM bromodomains expressed in GBM cells. An active analogue, IV-129, was then identified and further modified, resulting in new generation of bromodomain inhibitors with distinct properties. IV-255 and IV-275 had higher bioactivity than IV-129, with IV-255 selectively binding to the bromodomain of BRG1 and not BRM, while IV-275 bound well to both BRG1 and BRM bromodomains. In contrast, IV-191 did not bind to either bromodomain or alter GBM chemosensitivity. Importantly, both IV-255 and IV-275 markedly increased the extent of DNA damage induced by TMZ and bleomycin as determined by nuclear γH2AX staining. Our results demonstrate that these next-generation inhibitors selectively bind to the bromodomains of catalytic subunits of the SWI/SNF complex and sensitize GBM to the anticancer effects of TMZ and bleomycin. This approach holds promise for improving the treatment of GBM.  相似文献   

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