Cell Types of the Human Retina and Its Organoids at Single-Cell Resolution

Cameron S. Cowan; Magdalena Renner; Martina De Gennaro; Brigitte Gross-Scherf; David Goldblum; Yanyan Hou; Martin Munz; Tiago M. Rodrigues; Jacek Król; Tamás Szikra; Rachel Cuttat; Annick Waldt; Panagiotis Papasaikas; Roland Diggelmann; Claudia P. Patino-Alvarez; Patricia Galliker; Stefan E. Spirig; Dinko Pavlinić; Nadine Gerber-Hollbach; Sven Schuierer; Aldin Srdanovic; Márton Balogh; Riccardo Panero; Ákos Kusnyerik; Arnold Szabó; Michael Stadler; Selim Orgül; Simone Picelli; Pascal W. Hasler; Andreas Hierlemann; Hendrik P. N. Scholl; Guglielmo Roma; Florian Nigsch; Botond Roska

doi:10.1016/j.cell.2020.08.013

Cell Types of the Human Retina and Its Organoids at Single-Cell Resolution

Cameron S. Cowan(Friedrich Miescher Institute), Magdalena Renner(Novartis (Switzerland)), Martina De Gennaro(Institute of Molecular and Clinical Ophthalmology Basel), Brigitte Gross-Scherf(Friedrich Miescher Institute), David Goldblum(University of Basel), Yanyan Hou(Institute of Molecular and Clinical Ophthalmology Basel), Martin Munz(Friedrich Miescher Institute), Tiago M. Rodrigues(Institute of Molecular and Clinical Ophthalmology Basel), Jacek Król(Friedrich Miescher Institute), Tamás Szikra(Friedrich Miescher Institute), Rachel Cuttat(Novartis (Switzerland)), Annick Waldt(Novartis (Switzerland)), Panagiotis Papasaikas(SIB Swiss Institute of Bioinformatics), Roland Diggelmann(ETH Zurich), Claudia P. Patino-Alvarez(Friedrich Miescher Institute), Patricia Galliker(Institute of Molecular and Clinical Ophthalmology Basel), Stefan E. Spirig(Institute of Molecular and Clinical Ophthalmology Basel), Dinko Pavlinić(Institute of Molecular and Clinical Ophthalmology Basel), Nadine Gerber-Hollbach(University of Basel), Sven Schuierer(Novartis (Switzerland)), Aldin Srdanovic(Friedrich Miescher Institute), Márton Balogh(Institute of Molecular and Clinical Ophthalmology Basel), Riccardo Panero(Institute of Molecular and Clinical Ophthalmology Basel), Ákos Kusnyerik(Semmelweis University), Arnold Szabó(Semmelweis University), Michael Stadler(SIB Swiss Institute of Bioinformatics), Selim Orgül(University of Basel), Simone Picelli(Institute of Molecular and Clinical Ophthalmology Basel), Pascal W. Hasler(University of Basel), Andreas Hierlemann(ETH Zurich), Hendrik P. N. Scholl(Johns Hopkins University), Guglielmo Roma(Novartis (Switzerland)), Florian Nigsch(Novartis (Switzerland)), Botond Roska(University of Basel)

Cell

September 1, 2020

10.1016/j.cell.2020.08.013

Cited by 656Open Access

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Abstract

Human organoids recapitulating the cell-type diversity and function of their target organ are valuable for basic and translational research. We developed light-sensitive human retinal organoids with multiple nuclear and synaptic layers and functional synapses. We sequenced the RNA of 285,441 single cells from these organoids at seven developmental time points and from the periphery, fovea, pigment epithelium and choroid of light-responsive adult human retinas, and performed histochemistry. Cell types in organoids matured in vitro to a stable "developed" state at a rate similar to human retina development in vivo. Transcriptomes of organoid cell types converged toward the transcriptomes of adult peripheral retinal cell types. Expression of disease-associated genes was cell-type-specific in adult retina, and cell-type specificity was retained in organoids. We implicate unexpected cell types in diseases such as macular degeneration. This resource identifies cellular targets for studying disease mechanisms in organoids and for targeted repair in human retinas.

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