A novel function of the proneural factor Ascl1 in progenitor proliferation identified by genome-wide characterization of its targets

Castro, Diogo S.; Martynoga, Ben; Parras, Carlos; Ramesh, Vidya; Pacary, Emilie; Johnston, Caroline; Drechsel, Daniela; Lebel-Potter, Mélanie; Garcia, Laura Galinanes; Hunt, Charles J.; Dolle, Dirk; Bithell, Angela; Ettwiller, Laurence; Buckley, Noel J.; Guillemot, François

doi:10.1101/gad.627811

Cited by 384 publications

(440 citation statements)

References 107 publications

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“…Ascl1, which activates expression of the proneurogenic program, also has pivotal roles in promoting the G 1 -to-S and G 2 -to-M transitions (23,51). During development Ascl1 and Hes1 oscillate in opposite directions during the cell cycle with high Hes1 expression in G 1 (52).…”

Section: Discussionmentioning

confidence: 99%

Cell cycle and lineage progression of neural progenitors in the ventricular-subventricular zones of adult mice

Ponti

Obernier

Guinto

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

233

212

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Section: Discussionmentioning

confidence: 99%

Cell cycle and lineage progression of neural progenitors in the ventricular-subventricular zones of adult mice

Ponti

Obernier

Guinto

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

233

212

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“…Our results have, therefore, provided further validation of ASCL1 as a driver of proliferation in SCLC. Although ASCL1 has been established as a proneural transcription factor that drives neuronal differentiation, it has also been found to drive the proliferation of neural progenitor cells by positive regulation of such genes as CDK2, E2F1, and BIRC5 (33). The proposed function of ASCL1 as an oncogenic transcription factor is, therefore, supported by its known function in upregulating growth promoting genes.…”

Section: Discussionmentioning

confidence: 99%

Sensitivity of Small Cell Lung Cancer to BET Inhibition Is Mediated by Regulation of ASCL1 Gene Expression

Lenhart

Kirov

Desilva

et al. 2015

Molecular Cancer Therapeutics

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The BET (bromodomain and extra-terminal) proteins bind acetylated histones and recruit protein complexes to promote transcription elongation. In hematologic cancers, BET proteins have been shown to regulate expression of MYC and other genes that are important to disease pathology. Pharmacologic inhibition of BET protein binding has been shown to inhibit tumor growth in MYC-dependent cancers, such as multiple myeloma. In this study, we demonstrate that small cell lung cancer (SCLC) cells are exquisitely sensitive to growth inhibition by the BET inhibitor JQ1. JQ1 treatment has no impact on MYC protein expression, but results in downregulation of the lineage-specific transcription factor ASCL1. SCLC cells that are sensitive to JQ1 are also sensitive to ASCL1 depletion by RNAi. Chromatin immunoprecipitation studies confirmed the binding of the BET protein BRD4 to the ASCL1 enhancer, and the ability of JQ1 to disrupt the interaction. The importance of ASCL1 as a potential driver oncogene in SCLC is further underscored by the observation that ASCL1 is overexpressed in >50% of SCLC specimens, an extent greater than that observed for other putative oncogenes (MYC, MYCN, and SOX2) previously implicated in SCLC. Our studies have provided a mechanistic basis for the sensitivity of SCLC to BET inhibition and a rationale for the clinical development of BET inhibitors in this disease with high unmet medical need.

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“…Mash1 promotes cell cycle exit and neuronal fate determination; Olig2 regulates oligodendrocyte specification, and Hes1 regulates the maintenance and proliferation of NS cells. Importantly, these three factors are also reported to function in other events: Mash1 upregulates the gene expression for cell cycle progression (Castro et al, 2011), Olig2 functions in NS cell proliferation (Ligon et al, 2007), and Hes1 promotes astrocyte differentiation (Ohtsuka et al, 2001). Thus, each of these factors has two contradictory functions: maintenance and proliferation of NS cells and determination of a specific cell fate.…”

Section: Hes1 Oscillation In Ns Cells and The Optogenetic Controlmentioning

confidence: 99%

Expression Dynamics and Functions of Hes Factors in Development and Diseases

Kobayashi

Kageyama

2014

Current Topics in Developmental Biology

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Hes genes, encoding basic helix-loop-helix (HLH) transcriptional repressors, are mammalian homologues of Drosophila hairy and Enhancer of split genes, both of which are required for normal neurogenesis in Drosophila. There are seven members in the human Hes family, Hes1 to Hes7, which are expressed in many tissues and play various roles mainly in development. All Hes proteins have three conserved domains: basic HLH (bHLH), Orange, and WRPW domains. The basic region binds to target DNA sequences while the HLH region forms homo-and hetero-dimers with other bHLH proteins, the Orange domain is responsible for the selection of partners during heterodimer formation, and the WRPW domain recruits co-repressors. Hes1, Hes5, and Hes7 are known as downstream effectors of canonical Notch signaling, which regulates cell differentiation via cell-cell interaction. Hes factors regulate many events in development by repressing the expression of target genes, many of which encode transcriptional activators that promote cell differentiation. For example, Hes1, Hes3, and Hes5 are highly expressed by neural stem cells, and inactivation of these genes results in insufficient maintenance of stem cell proliferation and prematurely promotes neuronal differentiation. Recently, it was shown that the expression dynamics of Hes1 plays crucial roles in proper developmental timings and fate determination steps of embryonic stem cells and neural progenitor cells. Here we discuss some key features of Hes factors in development and diseases.

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A novel function of the proneural factor Ascl1 in progenitor proliferation identified by genome-wide characterization of its targets

Cited by 384 publications

References 107 publications

Cell cycle and lineage progression of neural progenitors in the ventricular-subventricular zones of adult mice

Cell cycle and lineage progression of neural progenitors in the ventricular-subventricular zones of adult mice

Sensitivity of Small Cell Lung Cancer to BET Inhibition Is Mediated by Regulation of ASCL1 Gene Expression

Expression Dynamics and Functions of Hes Factors in Development and Diseases

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