Regulation of downstream neuronal genes by proneural transcription factors during initial neurogenesis in the vertebrate brain

Ware, Michelle; Hamdi-Rozé, Houda; Friec, Julien Le; David, Véronique; Dupé, Valérie

doi:10.1186/s13064-016-0077-7

Cited by 16 publications

(23 citation statements)

References 61 publications

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“…This indicates that, although Lhx2 is required for both Notch pathway gene expression and Notch-mediated Müller gliogenesis (de Melo et al, 2016a), misexpression of Lhx2 in RPCs can inhibit Notch signaling and promote retinal neurogenesis, similar to the effects of overexpressing Lhx2 in the hippocampus (Subramanian et al, 2011). One mechanism by which this might occur is through Lhx2dependent regulation of the expression of Ascl1 and Neurog2 in RPCs, which, depending on context, can negatively (Hufnagel et al, 2010;Vasconcelos et al, 2016;Ware et al, 2016) or positively (Nelson et al, 2009) regulate Notch signaling in neural progenitors.…”

Section: Lhx2 Regulates Neurogenesis and Neuronal Differentiation In mentioning

confidence: 99%

Ldb1 and Rnf12-dependent regulation of Lhx2 controls the relative balance between neurogenesis and gliogenesis in retina

et al. 2018

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Precise control of the relative ratio of retinal neurons and glia generated during development is essential for visual function. We show that , which encodes a LIM-homeodomain transcription factor essential for specification and differentiation of retinal Müller glia, also plays a crucial role in the development of retinal neurons. Overexpression of with its transcriptional co-activator triggers cell cycle exit and inhibits both Notch signaling and retinal gliogenesis./ overexpression also induces the formation of wide-field amacrine cells (wfACs). In contrast, , which encodes a negative regulator of LDB1, is necessary for the initiation of retinal gliogenesis. We also show that Lhx2-dependent neurogenesis and wfAC formation requires and , and that Lhx2 is necessary for their expression, although overexpression of/ does not elevate expression of these proneural bHLH factors. Finally, we demonstrate that the relative level of the LHX2-LDB1 complex in the retina decreases in tandem with the onset of gliogenesis. These findings show that control of function by and underpins the coordinated differentiation of neurons and Müller glia in postnatal retina.

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Section: Lhx2 Regulates Neurogenesis and Neuronal Differentiation In mentioning

confidence: 99%

Ldb1 and Rnf12-dependent regulation of Lhx2 controls the relative balance between neurogenesis and gliogenesis in retina

et al. 2018

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“…In situ hybridisation All embryos were fixed in 4% PFA/PBS at 4˚C overnight, rinsed and processed for whole-mount RNA in situ hybridisation. Sense and anti-sense probes were generated from plasmids cloned as previously described (24) or plasmids provided as a gift. The protocol for single and double in situ hybridisation has been previously described (23).…”

Section: Accepted Manuscriptmentioning

confidence: 99%

“…3D, arrow), further observation of the developing forebrain was compromised in these Rbpj knockout embryos as they are dying at this stage from heart failure (30). Therefore, to attempt a rescue of these dying embryos, we used Rbpj L/L ;CreER T2 mice where the activity of the Cre-recombinase could be induced at a specific time point during pregnancy using tamoxifen (24). Rbpj L/L excision was fully efficient 12 hours after the tamoxifen injection ( Fig.…”

Section: Accepted Manuscript Inhibition Of Shh Expresmentioning

confidence: 99%

“…How NOTCH signalling contributes to maintaining Shh expression in the AH during this period is not yet defined. However, we know that NOTCH signalling pathway plays a key role in cell fate choice during AH neurogenesis (23,24) in balancing the number of progenitors cells with that of differentiating neurons (57). Our previous studies show that transient inhibition of NOTCH signalling during early hypothalamic development enhances neurogenesis in the AH.…”

Section: Accepted Manuscript 20mentioning

confidence: 99%

“…This complex is then capable of transcriptional regulation (22). Early in development, NOTCH is implicated in the correct patterning of the first neuronal population of the developing hypothalamus (23,24). Colocalisation of SHH activity and NOTCH components, such as Dll1 and Hes5, in both chick and mouse embryos is present at the level of the developing ventral forebrain corresponding to the hypothalamus primordium (23)(24)(25).…”

Section: Introductionmentioning

confidence: 99%

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Disrupted Hypothalamo-Pituitary Axis in Association With Reduced SHH Underlies the Pathogenesis of NOTCH-Deficiency

Hamdi-Rozé

Ware

Guyodo

et al. 2020

The Journal of Clinical Endocrinology &Amp; Metabolism

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Context In human, Sonic hedgehog (SHH) haploinsufficiency is the predominant cause of holoprosencephaly, a structural malformation of the forebrain midline characterized by phenotypic heterogeneity and incomplete penetrance. The NOTCH signaling pathway has recently been associated with holoprosencephaly in humans, but the precise mechanism involving NOTCH signaling during early brain development remains unknown. Objective The aim of this study was to evaluate the relationship between SHH and NOTCH signaling to determine the mechanism by which NOTCH dysfunction could cause midline malformations of the forebrain. Design In this study, we have used a chemical inhibition approach in the chick model and a genetic approach in the mouse model. We also reported results obtained from the clinical diagnosis of a cohort composed of 141 holoprosencephaly patients. Results We demonstrated that inhibition of NOTCH signaling in chick embryos as well as in mouse embryos induced a specific downregulation of SHH in the anterior hypothalamus. Our data in the mouse also revealed that the pituitary gland was the most sensitive tissue to Shh insufficiency and that haploinsufficiency of the SHH and NOTCH signaling pathways synergized to produce a malformed pituitary gland. Analysis of a large holoprosencephaly cohort revealed that some patients possessed multiple heterozygous mutations in several regulators of both pathways. Conclusions These results provided new insights into molecular mechanisms underlying the extreme phenotypic variability observed in human holoprosencephaly. They showed how haploinsufficiency of the SHH and NOTCH activity could contribute to specific congenital hypopituitarism that was associated with a sella turcica defect.

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Pharmacological Notch pathway inhibition leads to cell cycle arrest and stimulates ascl1 and neurogenin2 genes expression in dental pulp stem cells-derived neurospheres

et al. 2019

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Regulation of downstream neuronal genes by proneural transcription factors during initial neurogenesis in the vertebrate brain

Cited by 16 publications

References 61 publications

Ldb1 and Rnf12-dependent regulation of Lhx2 controls the relative balance between neurogenesis and gliogenesis in retina

Ldb1 and Rnf12-dependent regulation of Lhx2 controls the relative balance between neurogenesis and gliogenesis in retina

Disrupted Hypothalamo-Pituitary Axis in Association With Reduced SHH Underlies the Pathogenesis of NOTCH-Deficiency

Pharmacological Notch pathway inhibition leads to cell cycle arrest and stimulates ascl1 and neurogenin2 genes expression in dental pulp stem cells-derived neurospheres

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