GemC1 controls multiciliogenesis in the airway epithelium

Arbi, Marina; Pefani, Dafni-Eleftheria; Kyrousi, Christina; Lalioti, Maria‐Eleni; Kalogeropoulou, Argyro; Papanastasiou, Anastasios D.; Taraviras, Stavros; Lygerou, Zoi

doi:10.15252/embr.201540882

Cited by 76 publications

(131 citation statements)

References 53 publications

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“…Two related coiled-coil proteins, Multicilin and Gemc1, are both necessary and sufficient to initiate MCC differentiation, acting as co-regulators in a transcriptional complex with a subset of the E2F proteins (Arbi et al, 2016;Kyrousi et al, 2015;Ma et al, 2014;Stubbs et al, 2012;Terre et al, 2016;Zhou et al, 2015). The complex between Multicilin, E2f4 and DP1 (EDM) in particular appears to directly activate gene expression required for centriolar biogenesis (Ma et al, 2014), thus driving a novel form of organelle assembly that enables MCCs to form the hundreds of basal bodies required for multiple ciliation.…”

Section: Introductionmentioning

confidence: 99%

Foxn4 promotes gene expression required for the formation of multiple motile cilia

2016

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Multiciliated cell (MCC) differentiation involves extensive organelle biogenesis required to extend hundreds of motile cilia. Key transcriptional regulators known to drive the gene expression required for this organelle biogenesis are activated by the related coiled-coil proteins Multicilin and Gemc1. Here we identify foxn4 as a new downstream target of Multicilin required for MCC differentiation in Xenopus skin. When Foxn4 activity is inhibited in Xenopus embryos, MCCs show transient ciliogenesis defects similar to those seen in mutants of Foxj1, a known key regulator of genes required for motile ciliation. RNAseq analysis indicates that Foxn4 co-activates some Foxj1 target genes strongly and many Foxj1 targets weakly. ChIPseq suggests that whereas Foxn4 and Foxj1 frequently bind to different targets at distal enhancers, they largely bind together at MCC gene promoters. Consistent with this co-regulation, cilia extension by MCCs is more severely compromised in foxn4 and foxj1 double mutants than in single mutants. In contrast to Foxj1, Foxn4 is not required to extend a single motile cilium by cells involved in left-right patterning. These results indicate that Foxn4 complements Foxj1 transcriptionally during MCC differentiation, thereby shaping the levels of gene expression required for the timely and complete biogenesis of multiple motile cilia.

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Section: Introductionmentioning

confidence: 99%

Foxn4 promotes gene expression required for the formation of multiple motile cilia

2016

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“…The molecular pathway of GemC1/Lynkeas-Mcidas-c-Myb-Foxj1 is highly conserved on different tissues and among different organisms, as we have shown that GemC1/Lynkeas also participates in the differentiation of multiciliated cells in the mouse airway epithelium, 31 while GemC1/Lynkeas also controls the multiciliation process in zebrafish. 32 Taking into account these results and given the fact that Mcidas is essential for multiciliation process in human airway, 31,33 it is plausible that GemC1/Lynkeas also participates in multicilated cell differentitaion in humans.…”

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confidence: 89%

“…18 The role of Mcidas and GemC1/Lynkeas in radial glial cells fate commitment decisions was addressed by overexpression and depletion experiments. Mcidas is also able to regulate its own expression 13,31 ( Fig. 1).…”

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confidence: 99%

“…32 Taking into account these results and given the fact that Mcidas is essential for multiciliation process in human airway, 31,33 it is plausible that GemC1/Lynkeas also participates in multicilated cell differentitaion in humans. GemC1/Lynkeas might be essential in multiciliated ependymal cells generation in the adult human brain and therefore could be a target molecule for understanding how the adult human SEZ niche is assembled and functions.…”

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Mcidas and GemC1/Lynkeas specify embryonic radial glial cells

et al. 2016

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“…Factors required for multiciliogenesis, including Multicilin (Mcidas)5, GemC1 (refs 6, 7), cyclin O (Ccno)89, and the transcription factors p73 (refs 10, 11) and Foxj1 (refs 12, 13) are upregulated and maintained in a transcriptional network in cells committed to the multiciliated lineage3. How multiciliation is influenced by environmental cues is however incompletely understood.…”

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confidence: 99%

The aryl hydrocarbon receptor controls cyclin O to promote epithelial multiciliogenesis

et al. 2016

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Epithelia function as barriers against environmental insults and express the transcription factor aryl hydrocarbon receptor (AhR). However, AhR function in these tissues is unknown. Here we show that AhR regulates multiciliogenesis in both murine airway epithelia and in Xenopus laevis epidermis. In air-exposed airway epithelia, induction of factors required for multiciliogenesis, including cyclin O (Ccno) and Multicilin (Mcidas), is AhR dependent, and air exposure induces AhR binding to the Ccno promoter. Submersion and hypoxic conditions impede AhR-dependent Ccno induction. This is mediated by the persistence of Notch signalling, as Notch blockade renders multiciliogenesis and Ccno induction by AhR independent from air exposure. In contrast to Ccno induction, air exposure does not induce the canonical AhR target cytochrome P450 1a1 (Cyp1a1). Inversely, exposure to AhR ligands induces Cyp1a1 but not Ccno and impeded ciliogenesis. These data indicate that AhR involvement in detoxification of environmental pollutants may impede its physiological role, resulting in respiratory pathology.

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GemC1 controls multiciliogenesis in the airway epithelium

Cited by 76 publications

References 53 publications

Foxn4 promotes gene expression required for the formation of multiple motile cilia

Foxn4 promotes gene expression required for the formation of multiple motile cilia

Mcidas and GemC1/Lynkeas specify embryonic radial glial cells

The aryl hydrocarbon receptor controls cyclin O to promote epithelial multiciliogenesis

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