Fgf, Hh, and pax2a differentially regulate expression of pax5 and pou3f3b in vestibular and auditory maculae in the zebrafish otic vesicle

Fgf, Hh, and pax2a differentially regulate expression of pax5 and pou3f3b in vestibular and auditory maculae in the zebrafish otic vesicle

The vertebrate inner ear contains distinct sensory epithelia specialized for auditory or vestibular function. In zebrafish, the first sensory epithelia form at opposite ends of the otic vesicle and are functionally distinct: the anterior utricular macula is essential for vestibular function whereas...

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Veröffentlicht in:Developmental dynamics 2023-10, Vol.252 (10), p.1269-1279
Hauptverfasser: Tan, Amy L, Christensen, Sydney E, Baker, Allison K, Riley, Bruce B
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Auditory system
Danio rerio
Ear, Inner - metabolism
Epithelium
Fibroblast Growth Factor 1
Fibroblast growth factor 3
Fibroblast Growth Factors
Hearing
Hedgehog Proteins
Inner ear
Mice
PAX2 Transcription Factor - genetics
PAX2 Transcription Factor - metabolism
Pax5 protein
Saccule
Specifications
Vertebrates
Vestibular system
Zebrafish
Zebrafish - metabolism
Zebrafish Proteins - genetics
Zebrafish Proteins - metabolism
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container_title Developmental dynamics
container_volume 252
creator Tan, Amy L
Christensen, Sydney E
Baker, Allison K
Riley, Bruce B
description The vertebrate inner ear contains distinct sensory epithelia specialized for auditory or vestibular function. In zebrafish, the first sensory epithelia form at opposite ends of the otic vesicle and are functionally distinct: the anterior utricular macula is essential for vestibular function whereas the posterior saccular macula is critical for hearing. Mechanisms distinguishing these maculae are not clear. Here, we examined the effects of manipulating Fgf or Hh on expression of pax5 and pou3f3b, unique markers of utricular and saccular identity. We also examined the roles of pax2a and atoh1a/b, early regulators of sensory specification. fgf3 and fgf8a were uniquely required for pax5 and pou3f3b, respectively. Elevating Fgf or blocking Hh expanded expression of pax5 but repressed pou3f3b, while blocking Fgf had the opposite effect. Blocking sensory specification did not affect pax5 or pou3f3b, but both markers were lost in pax2a-/- mutants. Maintenance of pax2a expression requires Fgf, Hh and Pax2a itself. Specification of utricular identity requires high Fgf and is repressed by Hh, whereas saccular identity requires Hh plus low Fgf. pax2a acts downstream of Fgf and Hh to maintain both fates. Comparison with mouse suggests this may reflect a broadly conserved developmental mechanism.
doi_str_mv 10.1002/dvdy.599
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subjects Animals
Auditory system
Danio rerio
Ear, Inner - metabolism
Epithelium
Fibroblast Growth Factor 1
Fibroblast growth factor 3
Fibroblast Growth Factors
Hearing
Hedgehog Proteins
Inner ear
Mice
PAX2 Transcription Factor - genetics
PAX2 Transcription Factor - metabolism
Pax5 protein
Saccule
Specifications
Vertebrates
Vestibular system
Zebrafish
Zebrafish - metabolism
Zebrafish Proteins - genetics
Zebrafish Proteins - metabolism
title Fgf, Hh, and pax2a differentially regulate expression of pax5 and pou3f3b in vestibular and auditory maculae in the zebrafish otic vesicle
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