Human pluripotent stem cell-derived inner ear organoids recapitulate otic development <i>in vitro</i>

Doda, Daniela; Jimenez, Sara Alonso; Rehrauer, Hubert; Carreño, Jose F.; Valsamides, Victoria; Santo, Stefano Di; Widmer, Hans Rudolf; Locher, Heiko; Valk, Wouter H. van der; Zhang, Jingyuan; Koehler, Karl R.; Roccio, Marta

doi:10.1242/dev.201865

Development

2023

DOI: 10.1242/dev.201865

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Human pluripotent stem cell-derived inner ear organoids recapitulate otic development in vitro

Daniela Doda

Sara Alonso Jimenez

Hubert Rehrauer

et al.

Abstract: Our molecular understanding of the early stages of human inner ear development has been limited by the difficulty in accessing fetal samples at early gestational stages. As an alternative, previous studies have shown that inner ear morphogenesis can be partially recapitulated using induced pluripotent stem cells (iPSCs) directed to differentiate into Inner Ear Organoids (IEOs). Once validated and benchmarked, these systems could represent unique tools to complement and refine our understanding of human otic di… Show more

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Cited by 8 publications

References 103 publications

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Inner Ear Organoids: Strengths and Limitations

Pianigiani,

Roccio

2024

JARO

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Inner ear organoids derived from differentiation of human pluripotent stem cells have recently gained momentum as tools to study inner ear development and developmental defects. An additional exciting aspect about this technology is represented by its translational potential, specifically, the use of organoids to validate therapeutics for hearing and balance restoration on human/patient-specific cells. This latter aspect will be briefly discussed here including opportunities and current limitations.

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Inner Ear Organoids: Strengths and Limitations

Pianigiani,

Roccio

2024

JARO

Self Cite

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Pharmacological Approaches to Hearing Loss

Cederroth,

Dyhrfjeld-Johnsen,

Canlon

2024

Pharmacol Rev

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Hearing disorders pose significant challenges to individuals experiencing them and their overall quality of life, emphasizing the critical need for advanced pharmacological approaches to address these conditions. Current treatment options often focus on amplification devices, cochlear implants, or other rehabilitative therapies, leaving a substantial gap regarding effective pharmacological interventions. Advancements in our understanding of the molecular and cellular mechanisms involved in hearing disorders induced by noise, aging, and ototoxicity have opened new avenues for drug development, some of which have led to numerous clinical trials, with promising results. The development of optimal drug delivery solutions in animals and humans can also enhance the targeted delivery of medications to the ear. Moreover, large genome studies contributing to a genetic understanding of hearing loss in humans combined with advanced molecular technologies in animal studies have shown a great potential to increase our understanding of the etiologies of hearing loss. The auditory system exhibits circadian rhythms and temporal variations in its physiology, its vulnerability to auditory insults, and its responsiveness to drug treatments. The cochlear clock rhythms are under the control of the glucocorticoid system, and preclinical evidence suggests that the risk/benefit profile of hearing disorder treatments using chronopharmacological approaches would be beneficial. If translatable to the bedside, such approaches may improve the outcome of clinical trials. Ongoing research into the molecular and genetic basis of auditory disorders, coupled with advancements in drug formulation and delivery as well as optimized timing of drug administration, holds great promise of more effective treatments. Significance Statement Hearing disorders pose significant challenges to individuals and their overall quality of life, emphasizing the critical need for advanced pharmacological approaches to address these conditions. Ongoing research into the molecular and genetic basis of auditory disorders, coupled with advancements in drug delivery procedures and optimized timing of drug administration, holds the promise of more effective treatments.

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Mapping oto-pharyngeal development in a human inner ear organoid model

Steinhart,

van der Valk,

Osorio

et al. 2023

Development

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Inner ear development requires the coordination of cell types from distinct epithelial, mesenchymal and neuronal lineages. Although we have learned much from animal models, many details about human inner ear development remain elusive. We recently developed an in vitro model of human inner ear organogenesis using pluripotent stem cells in a 3D culture, fostering the growth of a sensorineural circuit, including hair cells and neurons. Despite previously characterizing some cell types, many remain undefined. This study aimed to chart the in vitro development timeline of the inner ear organoid to understand the mechanisms at play. Using single-cell RNA sequencing at ten stages during the first 36 days of differentiation, we tracked the evolution from pluripotency to various ear cell types after exposure to specific signaling modulators. Our findings showcase gene expression that influences differentiation, identifying a plethora of ectodermal and mesenchymal cell types. We also discern aspects of the organoid model consistent with in vivo development, while highlighting potential discrepancies. Our study establishes the Inner Ear Organoid Developmental Atlas (IODA), offering deeper insights into human biology and improving inner ear tissue differentiation.

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Human pluripotent stem cell-derived inner ear organoids recapitulate otic development in vitro

Cited by 8 publications

References 103 publications

Inner Ear Organoids: Strengths and Limitations

Inner Ear Organoids: Strengths and Limitations

Pharmacological Approaches to Hearing Loss

Mapping oto-pharyngeal development in a human inner ear organoid model

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