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A Gata3 3′ Distal Otic Vesicle Enhancer Directs Inner Ear-Specific Gata3 Expression

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Transcription factor GATA3 plays vital roles in inner ear development, while regulatory mechanisms controlling its inner ear-specific expression are undefined. We demonstrate that a cis-regulatory element lying 571 kb 3′… Click to show full abstract

Transcription factor GATA3 plays vital roles in inner ear development, while regulatory mechanisms controlling its inner ear-specific expression are undefined. We demonstrate that a cis-regulatory element lying 571 kb 3′ to the Gata3 gene directs inner ear-specific Gata3 expression, which we refer to as the Gata3 otic vesicle enhancer (OVE). ABSTRACT Transcription factor GATA3 plays vital roles in inner ear development, while regulatory mechanisms controlling its inner ear-specific expression are undefined. We demonstrate that a cis-regulatory element lying 571 kb 3′ to the Gata3 gene directs inner ear-specific Gata3 expression, which we refer to as the Gata3 otic vesicle enhancer (OVE). In transgenic murine embryos, a 1.5-kb OVE-directed lacZ reporter (TgOVE-LacZ) exhibited robust lacZ expression specifically in the otic vesicle (OV), an inner ear primordial tissue, and its derivative semicircular canal. To further define the regulatory activity of this OVE, we generated Cre transgenic mice in which Cre expression was directed by a 246-bp core sequence within the OVE element (TgcoreOVE-Cre). TgcoreOVE-Cre successfully marked the OV-derived inner ear tissues, including cochlea, semicircular canal and spiral ganglion, when crossed with ROSA26 lacZ reporter mice. Furthermore, Gata3 conditionally mutant mice, when crossed with the TgcoreOVE-Cre, showed hypoplasia throughout the inner ear tissues. These results demonstrate that OVE has a sufficient regulatory activity to direct Gata3 expression specifically in the otic vesicle and semicircular canal and that Gata3 expression driven by the OVE is crucial for normal inner ear development.

Keywords: inner ear; gata3; ear specific; gata3 expression; otic vesicle

Journal Title: Molecular and Cellular Biology
Year Published: 2018

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