Induction of sensory neurons from neuroepithelial stem cells by the ISX9 small molecule
(2016) In American Journal of Stem Cells 5(1). p.19-28- Abstract
Hearing impairment most often involves loss of sensory hair cells and auditory neurons. As this loss is permanent in humans, a cell therapy approach has been suggested to replace damaged cells. It is thus of interest to generate lineage restricted progenitor cells appropriate for cell based therapies. Human long-term self-renewing neuroepithelial stem (lt-NES) cell lines exhibit in vitro a developmental potency to differentiate into CNS neural lineages, and importantly lack this potency in vivo, i.e do not form teratomas. Small-molecules-driven differentiation is today an established route obtain specific cell derivatives from stem cells. In this study, we have investigated the effects of three small molecules SB431542, ISX9 and... (More)
Hearing impairment most often involves loss of sensory hair cells and auditory neurons. As this loss is permanent in humans, a cell therapy approach has been suggested to replace damaged cells. It is thus of interest to generate lineage restricted progenitor cells appropriate for cell based therapies. Human long-term self-renewing neuroepithelial stem (lt-NES) cell lines exhibit in vitro a developmental potency to differentiate into CNS neural lineages, and importantly lack this potency in vivo, i.e do not form teratomas. Small-molecules-driven differentiation is today an established route obtain specific cell derivatives from stem cells. In this study, we have investigated the effects of three small molecules SB431542, ISX9 and Metformin to direct differentiation of lt-NES cells into sensory neurons. Exposure of lt-NES cells to Metformin or SB431542 did not induce any marked induction of markers for sensory neurons. However, a four days exposure to the ISX9 small molecule resulted in reduced expression of NeuroD1 mRNA as well as enhanced mRNA levels of GATA3, a marker and important player in auditory neuron specification and development. Subsequent culture in the presence of the neurotrophic factors BDNF and NT3 for another seven days yielded a further increase of mRNA expression for GATA3. This regimen resulted in a frequency of up to 25-30% of cells staining positive for Brn3a/Tuj1. We conclude that an approach with ISX9 small molecule induction of lt-NES cells into auditory like neurons may thus be an attractive route for obtaining safe cell replacement therapy of sensorineural hearing loss.
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- author
- Ali, Rouknuddin Qasim ; Blomberg, Evelina ; Falk, Anna LU ; Ährlund-Richter, Lars and Ulfendahl, Mats
- publishing date
- 2016
- type
- Contribution to journal
- publication status
- published
- subject
- in
- American Journal of Stem Cells
- volume
- 5
- issue
- 1
- pages
- 10 pages
- publisher
- e-Century Publishing
- external identifiers
-
- pmid:27335699
- scopus:85015135537
- ISSN
- 2160-4150
- language
- English
- LU publication?
- no
- id
- 6909feae-3b46-40a7-9886-55a7520019d1
- alternative location
- http://www.ajsc.us/files/ajsc0016927.pdf
- date added to LUP
- 2021-08-10 13:05:17
- date last changed
- 2024-04-20 09:50:43
@article{6909feae-3b46-40a7-9886-55a7520019d1,
abstract = {{<p>Hearing impairment most often involves loss of sensory hair cells and auditory neurons. As this loss is permanent in humans, a cell therapy approach has been suggested to replace damaged cells. It is thus of interest to generate lineage restricted progenitor cells appropriate for cell based therapies. Human long-term self-renewing neuroepithelial stem (lt-NES) cell lines exhibit in vitro a developmental potency to differentiate into CNS neural lineages, and importantly lack this potency in vivo, i.e do not form teratomas. Small-molecules-driven differentiation is today an established route obtain specific cell derivatives from stem cells. In this study, we have investigated the effects of three small molecules SB431542, ISX9 and Metformin to direct differentiation of lt-NES cells into sensory neurons. Exposure of lt-NES cells to Metformin or SB431542 did not induce any marked induction of markers for sensory neurons. However, a four days exposure to the ISX9 small molecule resulted in reduced expression of NeuroD1 mRNA as well as enhanced mRNA levels of GATA3, a marker and important player in auditory neuron specification and development. Subsequent culture in the presence of the neurotrophic factors BDNF and NT3 for another seven days yielded a further increase of mRNA expression for GATA3. This regimen resulted in a frequency of up to 25-30% of cells staining positive for Brn3a/Tuj1. We conclude that an approach with ISX9 small molecule induction of lt-NES cells into auditory like neurons may thus be an attractive route for obtaining safe cell replacement therapy of sensorineural hearing loss. </p>}},
author = {{Ali, Rouknuddin Qasim and Blomberg, Evelina and Falk, Anna and Ährlund-Richter, Lars and Ulfendahl, Mats}},
issn = {{2160-4150}},
language = {{eng}},
number = {{1}},
pages = {{19--28}},
publisher = {{e-Century Publishing}},
series = {{American Journal of Stem Cells}},
title = {{Induction of sensory neurons from neuroepithelial stem cells by the ISX9 small molecule}},
url = {{https://lup.lub.lu.se/search/files/101075588/Induction_of_sensory_neurons.pdf}},
volume = {{5}},
year = {{2016}},
}