Essential Roles of Da Transactivation Domains in Neurogenesis and in E(spl)-Mediated Repression

Zarifi, Ioanna; Kiparaki, Marianthi; Koumbanakis, Konstantinos A.; Γιαγτζόγλου, Νικόλαος; Zacharioudaki, Evanthia; Alexiadis, Anastasios; Livadaras, Ioannis; Delidakis, Christos

doi:10.1128/mcb.00827-12

Cited by 12 publications

(29 citation statements)

References 78 publications

(103 reference statements)

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“…We found that the DPY-22 PQ-rich domain selectively interacted with HLH-2 but not HLH-3, whereas the last 129 amino acids truncated in all five dpy-22 alleles were required for this interaction (Figure 4B). Further analysis indicated that the PQ-rich domain interacted with the N-terminal half of HLH-2, the region of a predicted transactivation domain important for gene expression and neurogenesis [36, 37] (Figure 4C). These findings suggest that Mediator physically interacts with and might function in the same pathway as HLH-2 to promote I4 neurogenesis.…”

Section: Resultsmentioning

confidence: 99%

The CDK8 Complex and Proneural Proteins Together Drive Neurogenesis from a Mesodermal Lineage

Luo

Horvitz

2017

Current Biology

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SUMMARY At least some animal species can generate neurons from mesoderm or endoderm, but the underlying mechanisms remain unknown. We screened for C. elegans mutants in which the presumptive mesoderm-derived I4 neuron adopts a muscle-like cell fate. From this screen, we identified HLH-3, the C. elegans homolog of a mammalian proneural protein (Ascl1) used for in vitro neuronal reprogramming, as required for efficient I4 neurogenesis. We discovered that the CDK-8 Mediator kinase module acts together with a second proneural protein, HLH-2, and in parallel to HLH-3 to promote I4 neurogenesis. Genetic analysis revealed that CDK-8 most likely promotes I4 neurogenesis by inhibiting the CDK-7/CYH-1 (CDK7/cyclin H) kinase module of the transcription initiation factor TFIIH. Ectopic expression of HLH-2 and HLH-3 together promoted expression of neuronal features in non-neuronal cells. These findings reveal that the Mediator CDK8 kinase module can promote non-ectodermal neurogenesis and suggest that inhibiting CDK7/cyclin H might similarly promote neurogenesis.

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Section: Resultsmentioning

confidence: 99%

The CDK8 Complex and Proneural Proteins Together Drive Neurogenesis from a Mesodermal Lineage

Luo

Horvitz

2017

Current Biology

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“…We were able to restore degradation of Sc[1–320] by m7 when we fused the AD1 domain of Da in place of the Sc TAD (Supplementary Figure S5F and G), since AD1 also strongly interacts with m7 via the latter's Orange domain (68). Fusion of a non-interacting TAD, the Da LH, did not restore Sc[1–320] degradation (Supplementary Figure S5G).…”

Section: Resultsmentioning

confidence: 99%

bHLH proteins involved in Drosophila neurogenesis are mutually regulated at the level of stability

Kiparaki

Zarifi

Delidakis

2015

Nucleic Acids Research

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Proneural bHLH activators are expressed in all neuroectodermal regions prefiguring events of central and peripheral neurogenesis. Drosophila Sc is a prototypical proneural activator that heterodimerizes with the E-protein Daughterless (Da) and is antagonized by, among others, the E(spl) repressors. We determined parameters that regulate Sc stability in Drosophila S2 cells. We found that Sc is a very labile phosphoprotein and its turnover takes place via at least three proteasome-dependent mechanisms. (i) When Sc is in excess of Da, its degradation is promoted via its transactivation domain (TAD). (ii) In a DNA-bound Da/Sc heterodimer, Sc degradation is promoted via an SPTSS phosphorylation motif and the AD1 TAD of Da; Da is spared in the process. (iii) When E(spl)m7 is expressed, it complexes with Sc or Da/Sc and promotes their degradation in a manner that requires the corepressor Groucho and the Sc SPTSS motif. Da/Sc reciprocally promotes E(spl)m7 degradation. Since E(spl)m7 is a direct target of Notch, the mutual destabilization of Sc and E(spl) may contribute in part to the highly conserved anti-neural activity of Notch. Sc variants lacking the SPTSS motif are dramatically stabilized and are hyperactive in transgenic flies. Our results propose a novel mechanism of regulation of neurogenesis, involving the stability of key players in the process.

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“…Like the HLH domain, the Orange domain consists of two amphipathic alpha-helices and mediates protein-protein interactions, including dimerization of the basic helix-loop-helix-orange (bHLH-O) proteins, where it acts as an "extension" of the HLH domain (Dawson, Turner, Weintraub, & Parkhurst, 1995;Eastwood, Yin, Bandyopadhyay, & Bidwai, 2011;Knust et al, 1992;Taelman et al, 2004;Zarifi et al, 2012). Like the HLH domain, the Orange domain consists of two amphipathic alpha-helices and mediates protein-protein interactions, including dimerization of the basic helix-loop-helix-orange (bHLH-O) proteins, where it acts as an "extension" of the HLH domain (Dawson, Turner, Weintraub, & Parkhurst, 1995;Eastwood, Yin, Bandyopadhyay, & Bidwai, 2011;Knust et al, 1992;Taelman et al, 2004;Zarifi et al, 2012).…”

Section: E(spl): From a Spontaneous Dominant Mutation To A Group Of Cmentioning

confidence: 99%

“…This system explicitly illustrates the antagonism between AS-C proneural proteins and E(spl), for example, by their diametrically opposite lof and gain-of-function (gof ) phenotypes. Whereas the naturally basic-less HLH protein Extramacrochetae (Emc, homolog of vertebrate Id) interacts with Da and proneural proteins using the HLH helices and in doing so averts their DNA binding (Van Doren, Ellis, & Posakony, 1991), E(spl) proteins neither use their HLH helices to interact with proneurals nor do they abolish proneural DNA binding (Giagtzoglou et al, 2003(Giagtzoglou et al, , 2005Zarifi et al, 2012). Reciprocally, overexpression of any of the three AS-C genes causes overproduction of bristles, whereas overexpression of any of the seven E(spl) genes causes reduction or complete elimination of bristles (Giebel & Campos-Ortega, 1997;Hinz, Giebel, & Campos-Ortega, 1994;Ligoxygakis, Bray, Apidianakis, & Delidakis, 1999;Tata & Hartley, 1995).…”

Section: Lateral Inhibition Of Neural Precursors In the Pns-inhibitiomentioning

confidence: 99%

“…Whereas loss of AS-C results in clonal patches which lack all external sensory bristles, loss of E(spl) results in clonal patches with densely crowded supernumerary bristles (Heitzler, Bourouis, Ruel, Carteret, & Simpson, 1996). Interactions between proneural and E(spl) proteins have been mapped to the transactivation domains of the former and the N-terminal and Orange domains of the latter (Giagtzoglou et al, 2005;Zarifi et al, 2012). These defects have been traced back to SOP formation, namely, supernumerary bristles arise from supernumerary SOPs, while loss of bristles is due to failure to generate SOPs.…”

Section: Lateral Inhibition Of Neural Precursors In the Pns-inhibitiomentioning

confidence: 99%

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E(spl)

Delidakis

Monastirioti

Magadi

2014

Current Topics in Developmental Biology

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Essential Roles of Da Transactivation Domains in Neurogenesis and in E(spl)-Mediated Repression

Cited by 12 publications

References 78 publications

The CDK8 Complex and Proneural Proteins Together Drive Neurogenesis from a Mesodermal Lineage

The CDK8 Complex and Proneural Proteins Together Drive Neurogenesis from a Mesodermal Lineage

bHLH proteins involved in Drosophila neurogenesis are mutually regulated at the level of stability

E(spl)

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