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Literature DB >> 26208302

The quest for restoring hearing: Understanding ear development more completely.

Israt Jahan¹, Ning Pan¹, Karen L Elliott¹, Bernd Fritzsch¹.

Abstract

Neurosensory hearing loss is a growing problem of super-aged societies. Cochlear implants can restore some hearing, but rebuilding a lost hearing organ would be superior. Research has discovered many cellular and molecular steps to develop a hearing organ but translating those insights into hearing organ restoration remains unclear. For example, we cannot make various hair cell types and arrange them into their specific patterns surrounded by the right type of supporting cells in the right numbers. Our overview of the topologically highly organized and functionally diversified cellular mosaic of the mammalian hearing organ highlights what is known and unknown about its development. Following this analysis, we suggest critical steps to guide future attempts toward restoration of a functional organ of Corti. We argue that generating mutant mouse lines that mimic human pathology to fine-tune attempts toward long-term functional restoration are needed to go beyond the hope generated by restoring single hair cells in postnatal sensory epithelia.

Entities: Chemical Disease Gene Species

Keywords: Atoh1; cochlea; development; diffusible factors; expression regulation; lateral inhibition; organ of Corti; patterning

Mesh：

Substances：

Year: 2015 PMID： 26208302 PMCID： PMC4710855 DOI： 10.1002/bies.201500044

Source DB: PubMed Journal: Bioessays ISSN： 0265-9247 Impact factor: 4.345

109 in total

1. Generation of sensory hair cells by genetic programming with a combination of transcription factors.

Authors: Aida Costa; Luis Sanchez-Guardado; Stephanie Juniat; Jonathan E Gale; Nicolas Daudet; Domingos Henrique
Journal: Development Date: 2015-06-01 Impact factor: 6.868

Review 2. Sound strategies for hearing restoration.

Authors: Gwenaëlle S G Géléoc; Jeffrey R Holt
Journal: Science Date: 2014-05-09 Impact factor: 47.728

3. The Atoh1-lineage gives rise to hair cells and supporting cells within the mammalian cochlea.

Authors: Elizabeth Carroll Driver; Laura Sillers; Thomas M Coate; Matthew F Rose; Matthew W Kelley
Journal: Dev Biol Date: 2013-01-11 Impact factor: 3.582

4. Disruption of fibroblast growth factor receptor 3 signaling results in defects in cellular differentiation, neuronal patterning, and hearing impairment.

Authors: Chandrakala Puligilla; Feng Feng; Kotaro Ishikawa; Stefano Bertuzzi; Alain Dabdoub; Andrew J Griffith; Bernd Fritzsch; Matthew W Kelley
Journal: Dev Dyn Date: 2007-07 Impact factor: 3.780

5. Atoh1-lineal neurons are required for hearing and for the survival of neurons in the spiral ganglion and brainstem accessory auditory nuclei.

Authors: Stephen M Maricich; Anping Xia; Erin L Mathes; Vincent Y Wang; John S Oghalai; Bernd Fritzsch; Huda Y Zoghbi
Journal: J Neurosci Date: 2009-09-09 Impact factor: 6.167

6. Sox2 is required for sensory organ development in the mammalian inner ear.

Authors: Amy E Kiernan; Anna L Pelling; Keith K H Leung; Anna S P Tang; Donald M Bell; Charles Tease; Robin Lovell-Badge; Karen P Steel; Kathryn S E Cheah
Journal: Nature Date: 2005-04-21 Impact factor: 49.962

7. Proprioceptor pathway development is dependent on Math1.

Authors: N A Bermingham; B A Hassan; V Y Wang; M Fernandez; S Banfi; H J Bellen; B Fritzsch; H Y Zoghbi
Journal: Neuron Date: 2001-05 Impact factor: 17.173

8. Defining the cellular environment in the organ of Corti following extensive hair cell loss: a basis for future sensory cell replacement in the Cochlea.

Authors: Ruth R Taylor; Daniel J Jagger; Andrew Forge
Journal: PLoS One Date: 2012-01-27 Impact factor: 3.240

9. Inner ear hair cells deteriorate in mice engineered to have no or diminished innervation.

Authors: Jennifer Kersigo; Bernd Fritzsch
Journal: Front Aging Neurosci Date: 2015-03-18 Impact factor: 5.750

10. A new mutation of the Atoh1 gene in mice with normal life span allows analysis of inner ear and cerebellar phenotype in aging.

Authors: Kianoush Sheykholeslami; Vikrum Thimmappa; Casey Nava; Xiaohui Bai; Heping Yu; Tihua Zheng; Zhaoqiang Zhang; Sheng Li Li; Shuqing Liu; Qing Yin Zheng
Journal: PLoS One Date: 2013-11-12 Impact factor: 3.240

28 in total

Review 1. Spatiotemporal coordination of cellular differentiation and tissue morphogenesis in organ of Corti development.

Authors: Akiko Iizuka-Kogo
Journal: Med Mol Morphol Date: 2018-03-13 Impact factor: 2.309

2. Understanding Molecular Evolution and Development of the Organ of Corti Can Provide Clues for Hearing Restoration.

Authors: Israt Jahan; Karen L Elliott; Bernd Fritzsch
Journal: Integr Comp Biol Date: 2018-08-01 Impact factor: 3.326

3. A RNAscope whole mount approach that can be combined with immunofluorescence to quantify differential distribution of mRNA.

Authors: Jennifer Kersigo; Ning Pan; Joseph D Lederman; Snehajyoti Chatterjee; Ted Abel; Gabriela Pavlinkova; Immaculada Silos-Santiago; Bernd Fritzsch
Journal: Cell Tissue Res Date: 2018-07-05 Impact factor: 5.249

Review 4. Biological therapies in otology.

Authors: A Roemer; H Staecker; S Sasse; T Lenarz; A Warnecke
Journal: HNO Date: 2017-08 Impact factor: 1.284

5. Neurog1 can partially substitute for Atoh1 function in hair cell differentiation and maintenance during organ of Corti development.

Authors: Israt Jahan; Ning Pan; Jennifer Kersigo; Bernd Fritzsch
Journal: Development Date: 2015-07-24 Impact factor: 6.868

Review 10. Sensing External and Self-Motion with Hair Cells: A Comparison of the Lateral Line and Vestibular Systems from a Developmental and Evolutionary Perspective.

Authors: Boris P Chagnaud; Jacob Engelmann; Bernd Fritzsch; Joel C Glover; Hans Straka
Journal: Brain Behav Evol Date: 2017-10-09 Impact factor: 1.808