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Literature DB >> 22102534

Concise review: Inner ear stem cells--an oxymoron, but why?

Mohammad Ronaghi¹, Marjan Nasr, Stefan Heller.

Abstract

Hearing loss, caused by irreversible loss of cochlear sensory hair cells, affects millions of patients worldwide. In this concise review, we examine the conundrum of inner ear stem cells, which obviously are present in the inner ear sensory epithelia of nonmammalian vertebrates, giving these ears the ability to functionally recover even from repetitive ototoxic insults. Despite the inability of the mammalian inner ear to regenerate lost hair cells, there is evidence for cells with regenerative capacity because stem cells can be isolated from vestibular sensory epithelia and from the neonatal cochlea. Challenges and recent progress toward identification of the intrinsic and extrinsic signaling pathways that could be used to re-establish stemness in the mammalian organ of Corti are discussed.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2012 PMID： 22102534 PMCID： PMC3525351 DOI： 10.1002/stem.785

Source DB: PubMed Journal: Stem Cells ISSN： 1066-5099 Impact factor: 6.277

56 in total

1. Two contrasting roles for Notch activity in chick inner ear development: specification of prosensory patches and lateral inhibition of hair-cell differentiation.

Authors: Nicolas Daudet; Julian Lewis
Journal: Development Date: 2005-01-05 Impact factor: 6.868

2. A two-step mechanism underlies the planar polarization of regenerating sensory hair cells.

Authors: Hernán López-Schier; A J Hudspeth
Journal: Proc Natl Acad Sci U S A Date: 2006-11-21 Impact factor: 11.205

3. Mammalian cochlear supporting cells can divide and trans-differentiate into hair cells.

Authors: Patricia M White; Angelika Doetzlhofer; Yun Shain Lee; Andrew K Groves; Neil Segil
Journal: Nature Date: 2006-06-22 Impact factor: 49.962

4. Proliferation in the auditory receptor epithelium mediated by a cyclic AMP-dependent signaling pathway.

Authors: D S Navaratnam; H S Su; S P Scott; J C Oberholtzer
Journal: Nat Med Date: 1996-10 Impact factor: 53.440

5. Induction of cell proliferation in avian inner ear sensory epithelia by insulin-like growth factor-I and insulin.

Authors: E C Oesterle; T T Tsue; E W Rubel
Journal: J Comp Neurol Date: 1997-04-07 Impact factor: 3.215

6. Gene disruption of p27(Kip1) allows cell proliferation in the postnatal and adult organ of corti.

Authors: H Löwenheim; D N Furness; J Kil; C Zinn; K Gültig; M L Fero; D Frost; A W Gummer; J M Roberts; E W Rubel; C M Hackney; H P Zenner
Journal: Proc Natl Acad Sci U S A Date: 1999-03-30 Impact factor: 11.205

7. Atoh1 expression defines activated progenitors and differentiating hair cells during avian hair cell regeneration.

Authors: Jon Cafaro; Gi Soo Lee; Jennifer S Stone
Journal: Dev Dyn Date: 2007-01 Impact factor: 3.780

8. Distinct expression patterns of notch family receptors and ligands during development of the mammalian inner ear.

Authors: A K Lewis; G D Frantz; D A Carpenter; F J de Sauvage; W Q Gao
Journal: Mech Dev Date: 1998-11 Impact factor: 1.882

9. p27(Kip1) links cell proliferation to morphogenesis in the developing organ of Corti.

Authors: P Chen; N Segil
Journal: Development Date: 1999-04 Impact factor: 6.868

10. Thymosin beta4 induces adult epicardial progenitor mobilization and neovascularization.

Authors: Nicola Smart; Catherine A Risebro; Athalie A D Melville; Kelvin Moses; Robert J Schwartz; Kenneth R Chien; Paul R Riley
Journal: Nature Date: 2006-11-15 Impact factor: 49.962

16 in total

Review 1. [Gene therapy and stem cells for the inner ear: a review].

Authors: H A Breinbauer; M Praetorius
Journal: HNO Date: 2014-02 Impact factor: 1.284

2. Bilateral Vestibular Deficiency: Quality of Life and Economic Implications.

Authors: Daniel Q Sun; Bryan K Ward; Yevgeniy R Semenov; John P Carey; Charles C Della Santina
Journal: JAMA Otolaryngol Head Neck Surg Date: 2014-06 Impact factor: 6.223

3. Initiating Differentiation in Immortalized Multipotent Otic Progenitor Cells.

Authors: Jadali Azadeh; Zhichao Song; Alejandra S Laureano; Alana Toro-Ramos; Kelvin Kwan
Journal: J Vis Exp Date: 2016-01-02 Impact factor: 1.355

Review 4. Understanding the evolution and development of neurosensory transcription factors of the ear to enhance therapeutic translation.

Authors: Ning Pan; Benjamin Kopecky; Israt Jahan; Bernd Fritzsch
Journal: Cell Tissue Res Date: 2012-06-13 Impact factor: 5.249

9. Histone deacetylase inhibitor induces the expression of select epithelial genes in mouse utricle sensory epithelia-derived progenitor cells.

Authors: Zhengqing Hu; Jue Wang
Journal: Cell Reprogram Date: 2014-06-19 Impact factor: 1.987

Review 10. Changes in the adult vertebrate auditory sensory epithelium after trauma.

Authors: Elizabeth C Oesterle
Journal: Hear Res Date: 2012-11-20 Impact factor: 3.208