Olena Zhulyn scite author profile

The patterning and growth of the embryonic vertebrate limb is dependent on Sonic hedgehog (Shh), a morphogen that regulates the activity of Gli transcription factors. However, Shh expression is not observed during the first 12 hr of limb development. During this phase, the limb bud is prepatterned into anterior and posterior regions through the antagonistic actions of transcription factors Gli3 and Hand2. We demonstrate that precocious activation of Shh signaling during this early phase interferes with the Gli3-dependent specification of anterior progenitors, disturbing establishment of signaling centers and normal outgrowth of the limb. Our findings illustrate that limb development requires a sweet spot in the level and timing of pathway activation that allows for the Shh-dependent expansion of posterior progenitors without interfering with early prepatterning functions of Gli3/Gli3R or specification of anterior progenitors.

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Pervasive translational regulation of the cell signalling circuitry underlies mammalian development

Fujii

Zhulyn

Denans

et al. 2017

Nat Commun

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The degree and dynamics of translational control during mammalian development remain poorly understood. Here we monitored translation of the mammalian genome as cells become specified and organize into tissues in vivo. This identified unexpected and pervasive translational regulation of most of the core signalling circuitry including Shh, Wnt, Hippo, PI3K and MAPK pathways. We further identify and functionally characterize a complex landscape of upstream open reading frames (uORFs) across 5′-untranslated regions (UTRs) of key signalling components. Focusing on the Shh pathway, we demonstrate the importance of uORFs within the major SHH receptor, Ptch1, in control of cell signalling and neuronal differentiation. Finally, we show that the expression of hundreds of mRNAs underlying critical tissue-specific developmental processes is largely regulated at the translation but not transcript levels. Altogether, this work reveals a new layer of translational control to major signalling components and gene regulatory networks that diversifies gene expression spatially across developing tissues.

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Ptch2 shares overlapping functions with Ptch1 in Smo regulation and limb development

Zhulyn

Nieuwenhuis

Liu

et al. 2015

Developmental Biology

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Ptch1 and Ptch2 are highly conserved vertebrate homologs of Drosophila ptc, the receptor of the Hedgehog (Hh) signaling pathway. The vertebrate Ptch1 gene encodes a potent tumor suppressor and is well established for its role in embryonic development. In contrast, Ptch2 is poorly characterized and dispensable for embryogenesis. In flies and mice, ptc/Ptch1 controls Hh signaling through the regulation of Smoothened (Smo). In addition, Hh pathway activation also up-regulates ptc/Ptch1 expression to restrict the diffusion of the ligand. Recent studies have implicated Ptch2 in this ligand dependent antagonism, however whether Ptch2 encodes a functional Shh receptor remains unclear. In this report, we demonstrate that Ptch2 is a functional Shh receptor, which regulates Smo localization and activity in vitro. We also show that Ptch1 and Ptch2 are co-expressed in the developing mouse limb bud and loss of Ptch2 exacerbates the outgrowth defect in the limb-specific Ptch1 knockout mutants, demonstrating that Ptch1 and Ptch2 co-operate in regulating cellular responses to Shh in vivo.

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A p53-dependent translational program directs tissue-selective phenotypes in a model of ribosomopathies

et al. 2021

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Olena Zhulyn

A Switch from Low to High Shh Activity Regulates Establishment of Limb Progenitors and Signaling Centers

Pervasive translational regulation of the cell signalling circuitry underlies mammalian development

Ptch2 shares overlapping functions with Ptch1 in Smo regulation and limb development

A p53-dependent translational program directs tissue-selective phenotypes in a model of ribosomopathies

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