An In Vitro Model of Developmental Synaptogenesis Using Cocultures of Human Neural Progenitors and Cochlear Explants

Nayagam, Bryony A; Edge, Albert S.B.; Needham, Karina; Hyakumura, Tomoko; Leung, Joseph Y.-T.; Nayagam, David A. X.; Dottori, Mirella

doi:10.1089/scd.2012.0082

Cited by 31 publications

(58 citation statements)

References 53 publications

(57 reference statements)

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“…Recent literature supports the use of neural crest progenitors in a cell replacement therapy for deafness, given the molecular similarity of this population to placode-derived sensory neurons (Huisman and Rivolta, 2012;Nayagam et al, 2013). In addition, we have recently demonstrated that neurons derived from this induction protocol express key auditory neural proteins including NeuroD1, Brn3a, GATA3, Islet1 and neurofilament ( Fig.…”

Section: Introductionmentioning

confidence: 58%

“…A number of studies have now demonstrated the potential of stem cells to differentiate into appropriate neurosensory progenitors, including those of human origin (Shi et al, 2007;Chen et al, 2009Chen et al, , 2012Nayagam et al, 2013). The expression of key developmental markers in the differentiation of human stem cells toward an auditory neural lineage has recently been documented (Chen et al, 2012; and reviewed by Gunewardene et al, 2012) and includes the expression of key proteins and transcription factors Sox 2, Pax2/8, FoxG1, Six1, Nestin and Brn3a (Chen et al, 2012), Brn3a, GATA3 and peripherin (Shi et al, 2007), Pax2, Brn3a, peripherin, and neurofilament and NeuroD1, Brn3a, GATA3, Islet1, peripherin, and neurofilament (Gunewardene et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

“…This entails both the development of electrically active neurons and their functional integration including formation of synapses with target neurons in the cochlear nucleus. We and others have previously shown that human stem cell-derived neurons can fire action potentials, and possess the core currents and channel families necessary for this task (Chen et al, 2009;Nayagam et al, 2013). Among these are the inward Na + currents (I Na ) and sustained outward K + currents (I K ).…”

Section: Introductionmentioning

confidence: 99%

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Electrophysiological properties of neurosensory progenitors derived from human embryonic stem cells

et al. 2014

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In severe cases of sensorineural hearing loss where the numbers of auditory neurons are significantly depleted, stem cell-derived neurons may provide a potential source of replacement cells. The success of such a therapy relies upon producing a population of functional neurons from stem cells, to enable precise encoding of sound information to the brainstem. Using our established differentiation assay to produce sensory neurons from human stem cells, patch-clamp recordings indicated that all neurons examined generated action potentials and displayed both transient sodium and sustained potassium currents. Stem cell-derived neurons reliably entrained to stimuli up to 20 pulses per second (pps), with 50% entrainment at 50 pps. A comparison with cultured primary auditory neurons indicated similar firing precision during low-frequency stimuli, but significant differences after 50 pps due to differences in action potential latency and width. The firing properties of stem cell-derived neurons were also considered relative to time in culture (31-56 days) and revealed no change in resting membrane potential, threshold or firing latency over time. Thus, while stem cell-derived neurons did not entrain to high frequency stimulation as effectively as mammalian auditory neurons, their electrical phenotype was stable in culture and consistent with that reported for embryonic auditory neurons.

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Section: Introductionmentioning

confidence: 58%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Electrophysiological properties of neurosensory progenitors derived from human embryonic stem cells

et al. 2014

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“…In an in vitro study, neural precursors derived from hESCs were cultured along with cochlea in the 3D culture medium and it was observed that the precursor neurons were electrically active and they could differentiate into the sensory HC alongside the implanted cochlea. These results showed that neural precursors derived from hESCs might be useful in developing treatments that could directly replace the ANs [79].…”

Section: Three-dimensional Culture Systemmentioning

confidence: 84%

Combined Growth Factor and Gene Therapy: An Approach for Hair Cell Regeneration and Hearing Recovery

Mahmoudian-Sani

Jamshidi

Asgharzade

2018

ORL

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Introduction: Fibroblast growth factor, nerve growth factor neurotrophins, and insulin-like growth factor 1 are considered 3 families of growth factors that can be involved in the process of otic neurogenesis. In this respect, otic neurons can also be connected with mechanoreceptors in the ear, the hair cells (HCs), as well as the central nervous system. As a growth factor is combined with gene transfer technology, it can be used for hair cell regeneration. Gene therapy can be similarly employed to introduce genes into a system in order to induce the expression of genes for therapeutic agents, to replace defective genes, or to re-program supporting or surrounding cells to acquire the phenotype of lost or damaged cells in order to repair or regenerate the damaged tissue. Objective: The purpose of this review article was to investigate the epigenetic and growth factors involved in the differentiation pathway of embryonic stem cells (ESCs) into HCs and auditory neurons (ANs). Methods: To this end, the databases of Directory of Open Access Journals, Google Scholar, PubMed (NLM), LISTA (EBSCO), as well as Web of Science were searched. Results: Given the results available in the related literature, the differentiation efficacy of ESCs toward the ANs and the HCs, the important role of growth factors, and 3 different strategies of application of miRNA, epigenetic regulation, and preparation of three-dimensional (3D) environments were suggested to be taken into consideration in order to improve these studies in the future. Furthermore, the role of epigenetic mechanisms and miRNA in this differentiation process became quite obvious; hence, the utilization of such procedures in the near future would be significant. Conclusion: Combining several techniques with a synergic effect (such as growth factor gene therapy and 3D environments) seemed to lead to obtaining the best results as a therapeutic strategy.

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“…Although the strategies to date remain relatively ineffi cient in terms of cell yield, a number of laboratories have been successful in generating cells with molecular and functional phenotypes resembling sensory hairlike cells from ES cells and from terminally differentiated cells such as fi broblasts from mouse and human (e.g., Koehler et al 2013 ;Ouji et al 2013 ;Ronaghi et al 2014 ). Similar studies have been used to generate neuronal cells with characteristics of spiral ganglion neurons (e.g., Tong et al 2010 ;Nayagam et al 2012 ). Successful reprogramming of cells from humans carrying highly penetrant Mendelian mutations or lower penetrance risk variants should permit in-depth analysis of pathways associated with inner ear dysfunction in a cellular context that better approximates conditions in vivo.…”

Section: Human Genetic Studiesmentioning

confidence: 99%

Genes and Hearing Loss: Relationship to Oxidative Stress and Free Radical Formation

Kohrman

2015

Free Radicals in ENT Pathology

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An In Vitro Model of Developmental Synaptogenesis Using Cocultures of Human Neural Progenitors and Cochlear Explants

Cited by 31 publications

References 53 publications

Electrophysiological properties of neurosensory progenitors derived from human embryonic stem cells

Electrophysiological properties of neurosensory progenitors derived from human embryonic stem cells

Combined Growth Factor and Gene Therapy: An Approach for Hair Cell Regeneration and Hearing Recovery

Genes and Hearing Loss: Relationship to Oxidative Stress and Free Radical Formation

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