Myc represses miR-15a/miR-16-1 expression through recruitment of HDAC3 in mantle cell and other non-Hodgkin B-cell lymphomas

Zhang, X; Chen, X; Lin, Jianhong; Lwin, Tint; Wright, Gabriëla; Moscinski, Lynn C.; Dalton, William S.; Seto, Edward; Wright, Ken; Sotomayor, Eduardo M.; Tao, Jianguo

doi:10.1038/onc.2011.470

Cited by 144 publications

(136 citation statements)

References 28 publications

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“…Conversely, we demonstrate that miR-548m regulated c-Myc expression through direct targeting of c-Myc 3′-UTR and downregulation of miR-548m, in turn, contributes to c-Myc overexpression, thus generating a positive c-Myc/miR-548m feedback loop to ensure persistent high protein levels of c-Myc and further repression of miR-548m expression in lymphoma microenvironment. Moreover, the finding of c-Myc-induced EZH2-mediated miR-548m repression is in line with findings of our previous study that miR-29 expression is c-Myc and EZH2 dependent, implicating a genetic silencing mechanism for c-Myc-induced widespread miRNA repression (20,21,43). JQ1 functions as a specific inhibitor of BET proteins, including bromodomain-containing protein 4 (BRD4) and BRD2 through interference with the acetyl-lysine recognition domains (bromodomains).…”

Section: Discussionsupporting

confidence: 75%

“…We next investigated the underlying molecular mechanism of stroma-mediated miR-548m downregulation. Our recent studies revealed that c-Myc recruited HDAC3 and EZH2, a histone methyltransferase and a member of the polycomb group of proteins, to the promoters of miR-29 and miR-15a/16 as corepressors to downregulate miRNA expression (20,21). We, thus, tested whether miR-548m expression is c-Myc dependent and its repression is mediated through histone modification.…”

Section: Cell Adhesion To Stromal Cells Induces Hdac6 Expression and mentioning

confidence: 99%

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A microenvironment-mediated c-Myc/miR-548m/HDAC6 amplification loop in non-Hodgkin B cell lymphomas

et al. 2013

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A dynamic interaction occurs between the lymphoma cell and its microenvironment, with each profoundly influencing the behavior of the other. Here, using a clonogenic coculture growth system and a xenograft mouse model, we demonstrated that adhesion of mantle cell lymphoma (MCL) and other non-Hodgkin lymphoma cells to lymphoma stromal cells confers drug resistance, clonogenicity, and induction of histone deacetylase 6 (HDAC6). Furthermore, stroma triggered a c-Myc/miR-548m feed-forward loop, linking sustained c-Myc activation, miR-548m downregulation, and subsequent HDAC6 upregulation and stroma-mediated cell survival and lymphoma progression in lymphoma cell lines, primary MCL and other B cell lymphoma cell lines. Treatment with an HDAC6-selective inhibitor alone or in synergy with a c-Myc inhibitor enhanced cell death, abolished cell adhesion-mediated drug resistance, and suppressed clonogenicity and lymphoma growth ex vivo and in vivo. Together, these data suggest that the lymphoma-stroma interaction in the lymphoma microenvironment directly impacts the biology of lymphoma through genetic and epigenetic regulation, with HDAC6 and c-Myc as potential therapeutic targets.

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Section: Discussionsupporting

confidence: 75%

Section: Cell Adhesion To Stromal Cells Induces Hdac6 Expression and mentioning

confidence: 99%

A microenvironment-mediated c-Myc/miR-548m/HDAC6 amplification loop in non-Hodgkin B cell lymphomas

et al. 2013

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“…Very few direct interactions between transcriptional regulators and pri-miRNAencoding genes have been reported in plants or other organisms. In animals, there are some reports of transcription factors directly associating with pri-miRNA genes and resulting in the expression or repression of the associated genes (Hino et al, 2008;Xiong et al, 2009;Zhou et al, 2010;Zhang et al, 2012b). In Arabidopsis and other angiosperms, miR156 and miR172 are regulators of phase transitions, with miR156 delaying phase transitions while miR172 promotes the progression through the life cycle (for review, see Huijser and Schmid, 2011).…”

Section: Fus3 and Genes Regulated In Response To Supraoptimal Temperamentioning

confidence: 99%

Identification of Direct Targets of FUSCA3, a Key Regulator of Arabidopsis Seed Development

2013

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FUSCA3 (FUS3) is a B3 domain transcription factor that is a member of the LEAFY COTYLEDON (LEC) group of genes. The LEC genes encode proteins that also include LEC2, a B3 domain factor related to FUS3, and LEC1, a CCAAT box-binding factor. LEC1, LEC2, and FUS3 are essential for plant embryo development. All three loss-of-function mutants in Arabidopsis (Arabidopsis thaliana) prematurely exit embryogenesis and enter seedling developmental programs. When ectopically expressed, these genes promote embryo programs in seedlings. We report on chromatin immunoprecipitation-tiling array experiments to globally map binding sites for FUS3 that, along with other published work to assess transcriptomes in response to FUS3, allow us to determine direct from indirect targets. Many transcription factors associated with embryogenesis are direct targets of FUS3, as are genes involved in the seed maturation program. FUS3 regulates genes encoding microRNAs that, in turn, control transcripts encoding transcription factors involved in developmental phase changes. Examination of direct targets of FUS3 reveals that FUS3 acts primarily or exclusively as a transcriptional activator. Regulation of microRNA-encoding genes is one mechanism by which FUS3 may repress indirect target genes. FUS3 also directly up-regulates VP1/ABI3-LIKE1 (VAL1), encoding a B3 domain protein that functions as a repressor of transcription. VAL1, along with VAL2 and VAL3, is involved in the transition from embryo to seedling development. Many genes are responsive to FUS3 and to VAL1/VAL2 but with opposite regulatory consequences. The emerging picture is one of complex cross talk and interactions among embryo transcription factors and their target genes.

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“…HDAC complexes mediate repression of miR-15a, miR-16, and miR-29b in CLL and in NHL. 104,105 Treatment with HDACi induced the expression of these miRNAs, antagonizing survival protein MCL-1 and triggering cell death. 104 Deregulated PRC2 complexes repress miR-31 in adult T-cell leukemia and lead to activation of NF-kB, triggering oncogenic signaling.…”

mentioning

confidence: 99%

Mechanisms of epigenetic deregulation in lymphoid neoplasms

Jiang

Hatzi²,

Shaknovich

2013

Blood

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Myc represses miR-15a/miR-16-1 expression through recruitment of HDAC3 in mantle cell and other non-Hodgkin B-cell lymphomas

Cited by 144 publications

References 28 publications

A microenvironment-mediated c-Myc/miR-548m/HDAC6 amplification loop in non-Hodgkin B cell lymphomas

A microenvironment-mediated c-Myc/miR-548m/HDAC6 amplification loop in non-Hodgkin B cell lymphomas

Identification of Direct Targets of FUSCA3, a Key Regulator of Arabidopsis Seed Development

Mechanisms of epigenetic deregulation in lymphoid neoplasms

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