Generation of inner ear organoids containing functional hair cells from human pluripotent stem cells
Karl R. Koehler,Jing Nie,Emma Longworth-Mills,Xiao Ping Liu,Jiyoon Lee,Jeffrey R. Holt,Eri Hashino +6 more
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A method for differentiating human pluripotent stem cells to inner ear organoids that harbor functional hair cells and it is demonstrated that derived hair cells exhibit electrophysiological properties similar to those of native sensory hair cells.Abstract:
The derivation of human inner ear tissue from pluripotent stem cells would enable in vitro screening of drug candidates for the treatment of hearing and balance dysfunction and may provide a source of cells for cell-based therapies of the inner ear. Here we report a method for differentiating human pluripotent stem cells to inner ear organoids that harbor functional hair cells. Using a three-dimensional culture system, we modulate TGF, BMP, FGF, and WNT signaling to generate multiple otic-vesicle-like structures from a single stem-cell aggregate. Over 2 months, the vesicles develop into inner ear organoids with sensory epithelia that are innervated by sensory neurons. Additionally, using CRISPR-Cas9, we generate an ATOH1-2A-eGFP cell line to detect hair cell induction and demonstrate that derived hair cells exhibit electrophysiological properties similar to those of native sensory hair cells. Our culture system should facilitate the study of human inner ear development and research on therapies for diseases of the inner ear.read more
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Disease modelling in human organoids.
TL;DR: The currently available methods, particularly those aimed at modelling human biology, are highlighted, and an overview of their capabilities and limitations are provided.
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Engineering Stem Cell Self-organization to Build Better Organoids
TL;DR: How engineering efforts for guiding stem-cell-based development at multiple stages can form the basis for the assembly of highly complex and rationally designed self-organizing multicellular systems with increased robustness and physiological relevance is discussed.
Journal ArticleDOI
Hair-bearing human skin generated entirely from pluripotent stem cells
Jiyoon Lee,Jiyoon Lee,Cyrus C. Rabbani,Cyrus C. Rabbani,Hongyu Gao,Matthew R. Steinhart,Matthew R. Steinhart,Benjamin M. Woodruff,Zachary E. Pflum,Alexander Kim,Stefan Heller,Yunlong Liu,Taha Z. Shipchandler,Karl R. Koehler +13 more
TL;DR: It is demonstrated that nearly complete skin can self-assemble in vitro and be used to reconstitute skin in vivo, and that the skin organoids generated in vitro from human pluripotent stem cells are equivalent to the facial skin of human fetuses in the second trimester of development.
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Liver organoids: from basic research to therapeutic applications.
TL;DR: This Perspective will review the advances in the liver organoid field, its limitations and potential for biomedical applications, and a promising addition to the toolbox to gain a deeper understanding of this complex organ.
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Organoids - Preclinical Models of Human Disease.
TL;DR: A three-dimensional construct composed of multiple cell types that originates from stem cells through self-organization and can simulate the clinical models of disease is presented.
References
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Production of hepatocyte-like cells from human pluripotent stem cells
Nicholas R.F. Hannan,Charis-Patricia Segeritz,Thomas Touboul,Ludovic Vallier,Ludovic Vallier +4 more
TL;DR: A 25-d protocol to direct the differentiation of human pluripotent stem cells into a near-homogenous population of hepatocyte-like cells and expresses genes in a chronological manner similar to that described during in vivo hepatic development is described.
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Wnt signals mediate a fate decision between otic placode and epidermis.
TL;DR: It is reported that Wnt signaling is normally activated in a subset of Pax2+ cells, and that conditional inactivation of β-catenin in these cells causes an expansion of epidermal markers at the expense of the otic placode.
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Shaping sound in space: the regulation of inner ear patterning
Andrew K. Groves,Donna M. Fekete +1 more
TL;DR: Recent studies of inner ear development and patterning reveal that multiple stages of ear development – ranging from its early induction from the embryonic ectoderm to the establishment of the three cardinal axes and the fine-grained arrangement of sensory cells – are orchestrated by gradients of signaling molecules.
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Single-cell RNA-Seq resolves cellular complexity in sensory organs from the neonatal inner ear
TL;DR: Comparisons of cell types from utricles and cochleae demonstrate divergence between auditory and vestibular cells, despite a common origin, and suggest possible plasticity among cells at the sensory–nonsensory boundary.
Journal ArticleDOI
Sound Strategies for Hearing Restoration
TL;DR: Three biological strategies for use in the inner ear: gene therapy, stem-cell therapy, and molecular therapy are being developed to treat patients with neurosensory hearing loss and restore sensory function at the cellular level.
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