Bone marrow mesenchymal stem cells are progenitors in vitro for inner ear hair cells

Jeon, Sang-Jun; Oshima, Koichiro; Heller, Stefan; Edge, Albert S.B.

doi:10.1016/j.mcn.2006.10.003

Cited by 108 publications

(85 citation statements)

References 59 publications

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“…Cell replacement therapy is one potential way to repopulate damaged HCs. Pluripotent inner ear stem cells and transplanted exogenous progenitor cells have been verified as candidate cells (2,(6)(7)(8)39), but the controlled differentiation of stem cells into functional HCs is essential for hearing restoration.…”

Section: Discussionmentioning

confidence: 99%

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Cells of adult brain germinal zone have properties akin to hair cells and can be used to replace inner ear sensory cells after damage

Wei

Levic

Nie

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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Auditory hair cell defect is a major cause of hearing impairment, often leading to spiral ganglia neuron (SGN) degeneration. The cell loss that follows is irreversible in mammals, because inner ear hair cells (HCs) have a limited capacity to regenerate. Here, we report that in the adult brain of both rodents and humans, the ependymal layer of the lateral ventricle contains cells with proliferative potential, which share morphological and functional characteristics with HCs. In addition, putative neural stem cells (NSCs) from the subventricular zone of the lateral ventricle can differentiate into functional SGNs. Also important, the NSCs can incorporate into the sensory epithelia, demonstrating their therapeutic potential. We assert that NSCs and edendymal cells can undergo an epigenetic functional switch to assume functional characteristics of HCs and SGNs. This study suggests that the functional plasticity of renewable cells and conditions that promote functional reprogramming can be used for cell therapy in the auditory setting.cochlea ͉ ependymal cells ͉ hearing restoration ͉ neural stem cells ͉ spiral ganglia neurons

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Section: Discussionmentioning

confidence: 99%

“…However, the production of new HCs and SGNs is a rare event. Thus, considerable efforts have been made to identify a renewable cell source able to reconstruct damaged inner ears, with a special focus on various progenitor cells (2,(6)(7)(8), albeit limited success.…”

mentioning

confidence: 99%

Cells of adult brain germinal zone have properties akin to hair cells and can be used to replace inner ear sensory cells after damage

Wei

Levic

Nie

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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“…Cells with bona fide hair bundles have been generated in vitro from cell lines derived from embryonic chick ears (8). Stem cells derived from sources outside the inner ear such as embryonic stem cells (9), bone marrow mesenchymal stem cells (10), and adult mouse olfactory precursor cells (11) are also able to differentiate into cells that express hair cell markers. Moreover, neural stem cells have been transplanted into the inner ear and their survival and differentiation into sensory cells and/or neurons has been encouraging (12)(13)(14)(15), but practical application remains a challenge because yield is low and obstacles such as robust immune reactions and proper tissue integration have impeded progress.…”

Section: A Novel Source For Hair Cell Replacementmentioning

confidence: 99%

Can neurosphere production help restore inner ear transduction?

Collado

Holt²

2009

Proc. Natl. Acad. Sci. U.S.A.

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“…Stefan Heller and colleagues have pursued the isolation and identification of intrinsic stem cells from the mouse vestibular sensory epithelium and investigated whether they can be used to repair the damaged cochlear nerve or organ of Corti (Li, Liu, & Heller, 2003). This group has also shown that mouse embryonic stem cells and mesenchymal stem cells from bone marrow can be coaxed down a hair cell pathway and will express a number of hair cell-specific genes in culture (Jeon, Oshima, Heller, & Edge, 2007;Li, Roblin, Liu, & Heller, 2003;Oshima et al, 2007). They have also shown that neural progenitors derived from mouse embryonic stem cells can integrate into a damaged cochlear nerve and send out neural processes toward the cochlea (Corrales et al, 2006).…”

Section: Stem Cell Transplantationmentioning

confidence: 99%

Genetic and pharmacological intervention for treatment/prevention of hearing loss

Cotanche

2008

Journal of Communication Disorders

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Twenty years ago it was first demonstrated that birds could regenerate their cochlear hair cells following noise damage or aminoglycoside treatment. An understanding of how this structural and functional regeneration occurred might lead to the development of therapies for treatment of sensorineural hearing loss in humans. Recent experiments have demonstrated that noise exposure and aminoglycoside treatment lead to apoptosis of the hair cells. In birds, this programmed cell death induces the adjacent supporting cells to undergo regeneration to replace the lost hair cells. Although hair cells in the mammalian cochlea undergo apoptosis in response to noise damage and ototoxic drug treatment, the supporting cells do not possess the ability to undergo regeneration. However, current experiments on genetic manipulation, gene therapy, and stem cell transplantation suggest that regeneration in the mammalian cochlea may eventually be possible and may 1 day provide a therapeutic tool for hearing loss in humans.Learning outcomes-The reader should be able to: (1) Describe the anatomy of the avian and mammalian cochlea, identify the individual cell types in the organ of Corti, and distinguish major features that participate in hearing function, (2) Demonstrate a knowledge of how sound damage and aminoglycoside poisoning induce apoptosis of hair cells in the cochlea, (3) Define how hair cell loss in the avian cochlea leads to regeneration of new hair cells and distinguish this from the mammalian cochlea where there is no regeneration following damage, and (4) Interpret the potential for new approaches, such as genetic manipulation, gene therapy and stem cell transplantation, could provide a therapeutic approach to hair cell loss in the mammalian cochlea.

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Bone marrow mesenchymal stem cells are progenitors in vitro for inner ear hair cells

Cited by 108 publications

References 59 publications

Cells of adult brain germinal zone have properties akin to hair cells and can be used to replace inner ear sensory cells after damage

Cells of adult brain germinal zone have properties akin to hair cells and can be used to replace inner ear sensory cells after damage

Can neurosphere production help restore inner ear transduction?

Genetic and pharmacological intervention for treatment/prevention of hearing loss

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