Dopamine neurons derived from human ES cells efficiently engraft in animal models of Parkinson’s disease
Sonja Kriks,Jae-Won Shim,Jinghua Piao,Yosif Ganat,Dustin R. Wakeman,Zhi-Zhong Xie,Luis Carrillo-Reid,Gordon Auyeung,Chris Antonacci,Amanda Buch,Lichuan Yang,M. Flint Beal,D. James Surmeier,Jeffrey H. Kordower,Viviane Tabar,Lorenz Studer +15 more
TLDR
A novel floor-plate-based strategy for the derivation of human DA neurons that efficiently engraft in vivo is presented, suggesting that past failures were due to incomplete specification rather than a specific vulnerability of the cells.Abstract:
Human pluripotent stem cells (PSCs) are a promising source of cells for applications in regenerative medicine. Directed differentiation of PSCs into specialized cells such as spinal motoneurons or midbrain dopamine (DA) neurons has been achieved. However, the effective use of PSCs for cell therapy has lagged behind. Whereas mouse PSC-derived DA neurons have shown efficacy in models of Parkinson's disease, DA neurons from human PSCs generally show poor in vivo performance. There are also considerable safety concerns for PSCs related to their potential for teratoma formation or neural overgrowth. Here we present a novel floor-plate-based strategy for the derivation of human DA neurons that efficiently engraft in vivo, suggesting that past failures were due to incomplete specification rather than a specific vulnerability of the cells. Midbrain floor-plate precursors are derived from PSCs 11 days after exposure to small molecule activators of sonic hedgehog (SHH) and canonical WNT signalling. Engraftable midbrain DA neurons are obtained by day 25 and can be maintained in vitro for several months. Extensive molecular profiling, biochemical and electrophysiological data define developmental progression and confirm identity of PSC-derived midbrain DA neurons. In vivo survival and function is demonstrated in Parkinson's disease models using three host species. Long-term engraftment in 6-hydroxy-dopamine-lesioned mice and rats demonstrates robust survival of midbrain DA neurons derived from human embryonic stem (ES) cells, complete restoration of amphetamine-induced rotation behaviour and improvements in tests of forelimb use and akinesia. Finally, scalability is demonstrated by transplantation into parkinsonian monkeys. Excellent DA neuron survival, function and lack of neural overgrowth in the three animal models indicate promise for the development of cell-based therapies in Parkinson's disease.read more
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Biphasic Activation of WNT Signaling Facilitates the Derivation of Midbrain Dopamine Neurons from hESCs for Translational Use.
Tae Wan Kim,Jinghua Piao,So Yeon Koo,So Yeon Koo,Sonja Kriks,Sun Young Chung,Doron Betel,Nicholas D. Socci,Se Joon Choi,Susan Zabierowski,Brittany N. Dubose,Ellen J. Hill,Eugene V. Mosharov,Stefan Irion,Mark J. Tomishima,Viviane Tabar,Lorenz Studer +16 more
TL;DR: In this article, a two-step WNT signaling activation strategy was proposed to improve expression of midbrain markers, such as Engrailed-1 (EN1), while minimizing expression of contaminating posterior (hindbrain) and anterior (diencephalic) lineage markers.
Journal ArticleDOI
Clinical Trials in a Dish: The Potential of Pluripotent Stem Cells to Develop Therapies for Neurodegenerative Diseases
Kelly Haston,Steven Finkbeiner +1 more
TL;DR: The potential and caveats of iPSC technology as a platform for drug development and screening, and the future potential to use large cohorts of disease-bearing iPSCs to perform clinical trials in a dish are explored.
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Cellular manganese content is developmentally regulated in human dopaminergic neurons
Kevin K. Kumar,Edward W. Lowe,Asad A. Aboud,M. Diana Neely,Rey Redha,Joshua A. Bauer,Mihir Odak,C. David Weaver,Jens Meiler,Michael Aschner,Aaron B. Bowman +10 more
TL;DR: This work demonstrates cell-level regulation of Mn content across neuronal differentiation, and reports differential Mn accumulation between developmental stages and stage-specific differences in the Mn-altering activity of individual small molecules.
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Directing Differentiation of Human Embryonic Stem Cells Toward Anterior Neural Ectoderm Using Small Molecules
TL;DR: It is demonstrated that pluripotent stem cells can be reproducibly and efficiently differentiated to PAX6+ and OCT4− cells with the use of potent small inhibitors of the BMP and Activin/Nodal pathways, and in animal‐component‐free conditions, replacing the frequently used Noggin and SB431542.
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Stem Cell and Biomaterials Research in Dental Tissue Engineering and Regeneration
TL;DR: Advances in biomaterial sciences including microfabrication, self-assembled biomimetic peptides, and 3-dimensional printing hold great promise for whole-organ or partial tissue regeneration to replace teeth and periodontium.
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