The mammalian inner, middle and outer ears have different embryonic origins, yet the development of each component of the auditory apparatus must be precisely synchronized in space and time. Understanding the mechanisms that regulate and co-ordinate the development of these structures is of central importance in understanding the basis of the many birth defects that affect hearing. We have identified a Forkhead transcription factor, Foxi3, that is expressed at very early stages in the embryonic head. Foxi3 mouse mutants made in our lab lack all components of the inner, middle and external ears. Our work suggests that one of the first steps in ear induction? the formation of the otic placode ? does not occur in Foxi3 mutants. Moreover, the mesenchyme of the first and second branchial arches that generate the middle ear ossicles and the external ear begins to form in Foxi3 mutants, but rapidly succumbs to massive cell death. Moreover, we have recently identified human patients with Foxi3 variants that have a variety of defects in their hearing apparatus To our knowledge, Foxi3 is the only mammalian gene that causes a complete developmental failure of the entire inner, middle and outer ears when mutated by itself. We are therefore extremely interested to understand how Foxi3 orchestrates development of the auditory apparatus at both the cellular and molecular levels. Our data suggests that Foxi3 may act as a ?pioneer? transcription factor ? its main function in addition to initiating transcription is to epigenetically organize genomic loci containing ear-specific genes in a transcriptionally competent state. Our first two aims will determine the function and mechanism of Foxi3 during development of the inner ear using knockout mice, chick embryo manipulations and state-of-the-art ES cell models, deep sequencing and bioinformatic analysis.
Our final aim focuses on the function the Foxi3 gene in the development of the middle and external ear ? here we will both study the effects of loss of Foxi3 in mice, but also create mouse mutants that recapitulate the genetic variants seen in some of our human patients.

Public Health Relevance

1 in 1000 children are born with some form of inherited hearing loss. We have identified gene, Foxi3, that is activated very early in the development of the ear and causes a severe disruption of the inner ear, middle ear and external ear when mutated. We believe that understanding the function of this gene may help to shed light on the causes of human birth defects.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
2R01DC013072-06A1
Application #
10118450
Study Section
Auditory System Study Section (AUD)
Program Officer
Freeman, Nancy
Project Start
2013-03-22
Project End
2025-11-30
Budget Start
2020-12-01
Budget End
2021-11-30
Support Year
6
Fiscal Year
2021
Total Cost
Indirect Cost
Name
Baylor College of Medicine
Department
Neurosciences
Type
Schools of Medicine
DUNS #
051113330
City
Houston
State
TX
Country
United States
Zip Code
77030
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Singh, Sunita; Groves, Andrew K (2016) The molecular basis of craniofacial placode development. Wiley Interdiscip Rev Dev Biol 5:363-76
Basch, Martin L; Brown 2nd, Rogers M; Jen, Hsin-I et al. (2016) Where hearing starts: the development of the mammalian cochlea. J Anat 228:233-54
Birol, Onur; Ohyama, Takahiro; Edlund, Renée K et al. (2016) The mouse Foxi3 transcription factor is necessary for the development of posterior placodes. Dev Biol 409:139-151
Shirokova, Vera; Biggs, Leah C; Jussila, Maria et al. (2016) Foxi3 Deficiency Compromises Hair Follicle Stem Cell Specification and Activation. Stem Cells 34:1896-908
Gu, Rende; Brown 2nd, Rogers M; Hsu, Chih-Wei et al. (2016) Lineage tracing of Sox2-expressing progenitor cells in the mouse inner ear reveals a broad contribution to non-sensory tissues and insights into the origin of the organ of Corti. Dev Biol 414:72-84
Tassano, Elisa; Jagannathan, Vidhya; Drögemüller, Cord et al. (2015) Congenital aural atresia associated with agenesis of internal carotid artery in a girl with a FOXI3 deletion. Am J Med Genet A 167A:537-44
Edlund, Renée K; Birol, Onur; Groves, Andrew K (2015) The role of foxi family transcription factors in the development of the ear and jaw. Curr Top Dev Biol 111:461-95
Jussila, Maria; Aalto, Anne J; Sanz Navarro, Maria et al. (2015) Suppression of epithelial differentiation by Foxi3 is essential for molar crown patterning. Development 142:3954-63
Edlund, Renée K; Ohyama, Takahiro; Kantarci, Husniye et al. (2014) Foxi transcription factors promote pharyngeal arch development by regulating formation of FGF signaling centers. Dev Biol 390:1-13

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