Single-cell analysis delineates a trajectory toward the human early otic lineage

Ealy, Megan; Ellwanger, Daniel C.; Kosaric, Nina; Stapper, Andres Plata; Heller, Stefan

doi:10.1073/pnas.1605537113

Cited by 59 publications

(69 citation statements)

References 25 publications

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“…This in turn is necessary for the correct specification of the atrial siphon placode, an invertebrate homolog of the otic placode (Sasakura et al, ). Recently, single‐cell analysis of human otic lineages derived from pluripotent stem cells revealed that RA treatment was essential for the induction of FGF‐dependent early otic markers, and posterior placodal fates by upregulating PAX2 and PAX8 expression (Ealy, Ellwanger, Kosaric, Stapper, & Heller, ).…”

Section: Ra Signaling In Neural Crest and Cranial Placodes Formationmentioning

confidence: 99%

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Generating retinoic acid gradients by local degradation during craniofacial development: One cell's cue is another cell's poison

Dubey

Rose

Jones

et al. 2018

Genesis

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Retinoic acid (RA) is a vital morphogen for early patterning and organogenesis in the developing embryo. RA is a diffusible, lipophilic molecule that signals via nuclear RA receptor heterodimeric units that regulate gene expression by interacting with RA response elements in promoters of a significant number of genes. For precise RA signaling, a robust gradient of the morphogen is required. The developing embryo contains regions that produce RA, and specific intracellular concentrations of RA are created through local degradation mediated by Cyp26 enzymes. In order to elucidate the mechanisms by which RA executes precise developmental programs, the kinetics of RA metabolism must be clearly understood. Recent advances in techniques for endogenous RA detection and quantification have paved the way for mechanistic studies to shed light on downstream gene expression regulation coordinated by RA. It is increasingly coming to light that RA signaling operates not only at precise concentrations but also employs mechanisms of degradation and feedback inhibition to self-regulate its levels. A global gradient of RA throughout the embryo is often found concurrently with several local gradients, created by juxtaposed domains of RA synthesis and degradation. The existence of such local gradients has been found especially critical for the proper development of craniofacial structures that arise from the neural crest and the cranial placode populations. In this review, we summarize the current understanding of how local gradients of RA are established in the embryo and their impact on craniofacial development.

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Section: Ra Signaling In Neural Crest and Cranial Placodes Formationmentioning

confidence: 99%

“…Recently, single-cell analysis of human otic lineages derived from pluripotent stem cells revealed that RA treatment was essential for the induction of FGF-dependent early otic markers, and posterior placodal fates by upregulating PAX2 and PAX8 expression (Ealy, Ellwanger, Kosaric, Stapper, & Heller, 2016).…”

Section: Otic Placodesmentioning

confidence: 99%

Generating retinoic acid gradients by local degradation during craniofacial development: One cell's cue is another cell's poison

Dubey

Rose

Jones

et al. 2018

Genesis

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“…RA, a small lipophilic signaling molecule, is the main biologically active metabolite of vitamin A (retinol), playing pleiotropic functions during embryonic development . RA biosynthesis occurs in a two‐step process: first, precursor retinol (vitamin A) is oxidized to retinaldehyde by the cytosolic alcohol dehydrogenases and the retinol dehydrogenases; then, retinaldehyde is transformed to RA by members of the aldehyde dehydrogenease class known as retinaldehyde dehydrogenases (RALDH) .…”

Section: Introductionmentioning

confidence: 99%

“…RA, a small lipophilic signaling molecule, is the main biologically active metabolite of vitamin A (retinol), playing pleiotropic functions during embryonic development. 16,29,[33][34][35][36][37][38][39][40][41][42][43][44][45][46] RA biosynthesis occurs in a two-step process: first, precursor retinol (vitamin A) is oxidized to retinaldehyde by the cytosolic alcohol dehydrogenases and the retinol dehydrogenases; then, retinaldehyde is transformed to RA by members of the aldehyde dehydrogenease class known as retinaldehyde dehydrogenases (RALDH). 16,[47][48][49] The controlling actions of RA occur by regulation of the activity of the RA nuclear receptor family, the retinoic acid receptors (RARs) and the retinoid X receptors (RXRs), to govern the expression of target genes binding to retinoic acid response elements (RAREs) present in the regulatory sequences of these RA-regulated genes.…”

Section: Introductionmentioning

confidence: 99%

Cyp1B1 expression patterns in the developing chick inner ear

Cardeña-Núñez

Sánchez-Guardado

Hidalgo‐Sánchez

2019

Developmental Dynamics

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Background Retinoic acid (RA) plays an important role in organogenesis as a paracrine signal through transcriptional regulation of an increasing number of known downstream target genes, regulating cell proliferation, and differentiation. During the development of the inner ear, RA directly governs the morphogenesis and specification processes mainly by means of RA‐synthesizing retinaldehyde dehydrogenase (RALDH) enzymes. Interestingly, CYP1B1, a cytochrome P450 enzyme, is able to mediate the oxidative metabolisms also leading to RA generation, its expression patterns being associated with many known sites of RA activity. Results This study describes for the first time the presence of CYP1B1 in the developing chick inner ear as a RALDH‐independent RA‐signaling mechanism. In our in situ hybridization analysis, Cyp1B1 expression was first observed in a domain located in the ventromedial wall of the otic anlagen, being included within the rostralmost aspect of an Fgf10‐positive pan‐sensory domain. As development proceeds, all identified Fgf10‐positive areas were Cyp1B1 stained, with all sensory patches being Cyp1B1 positive at stage HH34, except the macula neglecta. Conclusions Cyp1B1 expression suggested a possible contribution of CYP1B1 action in the specification of the lateral‐to‐medial and dorsal‐to‐ventral axes of the developing chick inner ear.

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“…Considerable progress has been made in ES cell models of otic development, where stem cells can be coaxed into the otic sensory lineage through manipulation of signaling to eventually produce otic sensory cell types (DeJonge et al, 2016;Ealy et al, 2016;Koehler et al, 2013;Koehler et al, 2017;Li et al, 2003;Oshima et al, 2010). However, stem cell differentiation is inherently heterogeneous and, without highly specific and persistent otic lineage markers, it is currently necessary to assay for multiple markers at different time points in order to infer the identity of potential otic cells (Ealy et al, 2016;Koehler et al, 2013;Oshima et al, 2010;Schaefer et al, 2018). This limitation is particularly the case for identification of otic progenitors and supporting cells, which lack the more distinguishing cytological features and expression profiles of hair cells.…”

Section: Introductionmentioning

confidence: 99%

Fbxo2^VHCmouse and embryonic stem cell reporter lines delineatein vitro-generated inner ear sensory epithelia cells and enable otic lineage selection and Cre-recombination

Hartman¹,

Böscke

Ellwanger³

et al. 2018

Preprint

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STATEMENTA multifunctional Fbxo2-targeted reporter in mice and stem cells was developed and characterized as a resource for inner ear studies, along with a toolbox of plasmids to facilitate the use of this technique for other users. ABSTRACTWhile the mouse has been a productive model for inner ear studies, the lack of highly specific genes and tools have presented challenges, specifically for in vitro studies of otic development, where innate cellular heterogeneity and disorganization increase the reliance on lineage-specific markers. To address this challenge in mice and embryonic stem (ES) cells, we targeted the lineage-specific otic gene Fbxo2 with a multicistronic reporter cassette (Venus/Hygro/CreER = VHC). In otic organoids derived from ES cells, Fbxo2 VHC specifically delineates otic progenitors and inner ear sensory epithelia.In mice, Venus expression and CreER activity reveal a cochlear developmental gradient, label the prosensory lineage, show enrichment in a subset of type I vestibular hair cells, and expose strong expression in adult cerebellar granule cells. We provide a toolbox of multiple spectrally distinct reporter combinations to the community for studies that require use of fluorescent reporters, hygromycin selection, and conditional Cre-mediated recombination.

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Single-cell analysis delineates a trajectory toward the human early otic lineage

Cited by 59 publications

References 25 publications

Generating retinoic acid gradients by local degradation during craniofacial development: One cell's cue is another cell's poison

Generating retinoic acid gradients by local degradation during craniofacial development: One cell's cue is another cell's poison

Cyp1B1 expression patterns in the developing chick inner ear

Fbxo2^VHCmouse and embryonic stem cell reporter lines delineatein vitro-generated inner ear sensory epithelia cells and enable otic lineage selection and Cre-recombination

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Single-cell analysis delineates a trajectory toward the human early otic lineage

Cited by 59 publications

References 25 publications

Generating retinoic acid gradients by local degradation during craniofacial development: One cell's cue is another cell's poison

Generating retinoic acid gradients by local degradation during craniofacial development: One cell's cue is another cell's poison

Cyp1B1 expression patterns in the developing chick inner ear

Fbxo2VHCmouse and embryonic stem cell reporter lines delineatein vitro-generated inner ear sensory epithelia cells and enable otic lineage selection and Cre-recombination

Contact Info

Product

Resources

About

Fbxo2^VHCmouse and embryonic stem cell reporter lines delineatein vitro-generated inner ear sensory epithelia cells and enable otic lineage selection and Cre-recombination