Retinoic acid influences anteroposterior positioning of epidermal sensory neurons and their gene expression in a developing chordate (amphioxus)

Schubert, Michael; Holland, Nicholas D.; Escrivà, Héctor; Holland, Linda Z.; Laudet, Vincent

doi:10.1073/pnas.0403216101

Cited by 80 publications

(89 citation statements)

References 59 publications

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“…During normal development, these cells are scattered along the entire AP axis of the developing general ectoderm and express a combinatorial code of different proneural genes including coe, islet, and err. Treatments with RA and RA antagonist shift the AP distribution of sensory neurons in the general ectoderm and alter the combinatorial code of proneural genes expressed in these cells (Schubert et al, 2004). The effect of RA on the distribution of sensory neurons in the amphioxus general ectoderm is reminiscent of the posteriorizing action of exogenous RA on the lateral line neurons of axolotls (Gibbs and Northcutt, 2004).…”

Section: Neural Crest Placodes and Their Derivativesmentioning

confidence: 99%

“…Thus, while exogenous RA shifts collinear expression of hox genes anteriorly, RA antagonist treatment downregulates transcription of hox genes in the general ectoderm. Moreover, Schubert et al (2004) demonstrated that in the amphioxus general ectoderm the differentiation of sensory neurons is sensitive to RA signals. During normal development, these cells are scattered along the entire AP axis of the developing general ectoderm and express a combinatorial code of different proneural genes including coe, islet, and err.…”

Section: Neural Crest Placodes and Their Derivativesmentioning

confidence: 99%

“…In amphioxus, the other group of invertebrate chordates, RA signaling in the general ectoderm controls collinear expression of hox genes as well as specification of neuronal subtypes (Schubert et al, 2004) (see Fig. 3).…”

Section: Neural Crest Placodes and Their Derivativesmentioning

confidence: 99%

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Retinoic acid signaling in development: Tissue‐specific functions and evolutionary origins

Campo-Paysaa

Marlétaz

Laudet

et al. 2008

Genesis

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115

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Summary: Retinoic acid (RA) is a vitamin A-derived morphogen important for axial patterning and organ formation in developing vertebrates and invertebrate chordates (tunicates and cephalochordates). Recent analyses of genomic data have revealed that the molecular components of the RA signaling cascade are also present in other invertebrate groups, such as hemichordates and sea urchins. In this review, we reassess the evolutionary origins of the RA signaling pathway by examining the presence of key factors of this signaling cascade in different metazoan genomes and by comparing tissue-specific roles for RA during development of different animals. This discussion of genomic and developmental data suggests that RA signaling might have originated earlier in metazoan evolution than previously thought. On the basis of this hypothesis, we conclude by proposing a scenario for the evolution of RA functions during development, which highlights functional gains and lineage-specific losses during metazoan diversification. genesis 46:640-656,

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Section: Neural Crest Placodes and Their Derivativesmentioning

confidence: 99%

Section: Neural Crest Placodes and Their Derivativesmentioning

confidence: 99%

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Retinoic acid signaling in development: Tissue‐specific functions and evolutionary origins

Campo-Paysaa

Marlétaz

Laudet

et al. 2008

Genesis

Self Cite

115

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“…In order to determine the evolution of the neural crest Hox code, we must also find out how DR5 elements are involved in transcriptional regulation of amphioxus Hox. Schubert et al (2004) demonstrated that AmphiHox1, 3, and 4 expression are sensitive to exogenous RA in both the neural tube and epidermis. We are currently investigating how RAREs are involved in expression of the neural tube and epidermis of ascidian and amphioxus embryos.…”

Section: Evolution Of the New Hox Code In Vertebratesmentioning

confidence: 99%

Conserved RARE localization in amphioxusHox clusters and implications forHox code evolution in the vertebrate neural crest

et al. 2006

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“…In addition, this network functions directly in the ASP/otic placode to pattern it. Similarly, in amphioxus, RA functions in patterning of the epidermal sensory organ (Schubert et al, 2004), from which placodes are thought to originate (Holland and Holland, 2001). In vertebrates, otic placode formation depends on signals from a properly patterned CNS (Hans and Westerfield, 2007), and is therefore indirectly dependent on RA and Hox1.…”

Section: Discussionmentioning

confidence: 99%

Retinoic acid-driven Hox1 is required in the epidermis for forming the otic/atrial placodes during ascidian metamorphosis

et al. 2012

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Retinoic acid (RA)-mediated expression of the homeobox gene Hox1 is a hallmark of the chordate central nervous system (CNS). It has been suggested that the RA-Hox1 network also functions in the epidermal ectoderm of chordates. Here, we show that in the urochordate ascidian Ciona intestinalis, RA-Hox1 in the epidermal ectoderm is necessary for formation of the atrial siphon placode (ASP), a structure homologous to the vertebrate otic placode. Loss of Hox1 function resulted in loss of the ASP, which could be rescued by expressing Hox1 in the epidermis. As previous studies showed that RA directly upregulates Hox1 in the epidermis of Ciona larvae, we also examined the role of RA in ASP formation. We showed that abolishment of RA resulted in loss of the ASP, which could be rescued by forced expression of Hox1 in the epidermis. Our results suggest that RA-Hox1 in the epidermal ectoderm played a key role in the acquisition of the otic placode during chordate evolution.

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Retinoic acid influences anteroposterior positioning of epidermal sensory neurons and their gene expression in a developing chordate (amphioxus)

Cited by 80 publications

References 59 publications

Retinoic acid signaling in development: Tissue‐specific functions and evolutionary origins

Retinoic acid signaling in development: Tissue‐specific functions and evolutionary origins

Conserved RARE localization in amphioxusHox clusters and implications forHox code evolution in the vertebrate neural crest

Retinoic acid-driven Hox1 is required in the epidermis for forming the otic/atrial placodes during ascidian metamorphosis

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