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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Advances in stem-cell–generated transplantation therapy for Parkinson's disease
Maria Sundberg,Ole Isacson +1 more
TL;DR: Taking into account the rapid development of the stem-cell field and technological improvements in cell preparations and GMP facilities, it is thought that pluripotent stem- cell–derived DA neurons will offer a relevant cell therapy option for treatment of PD in the near future.
Journal ArticleDOI
Typical and atypical stem cells in the brain, vitamin C effect and neuropathology.
Francisco Nualart,Katterine Salazar,Karina Oyarce,Pedro Cisternas,Nery Jara,Carmen Silva-Alvarez,Patricia Pastor,Fernando Martínez,Andrea García,María De Los Ángeles García-Robles,Juan Carlos Tapia +10 more
TL;DR: It is believed that a complete understanding of all molecular players, including vitamin C, in stem cell differentiation will positively impact on the use of stem cell transplantation for neurodegenerative diseases.
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Stem Cell-Mediated Regeneration of the Adult Brain.
TL;DR: Recently developed approaches for brain repair are reviewed and future perspectives that may eventually allow for developing novel treatment strategies in acute and chronic brain injury are discussed.
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Signaling-Dependent Control of Apical Membrane Size and Self-Renewal in Rosette-Stage Human Neuroepithelial Stem Cells
Jan Philip Medelnik,Jan Philip Medelnik,Kathleen Roensch,Kathleen Roensch,Satoshi Okawa,Antonio del Sol,Osvaldo Chara,Osvaldo Chara,Levan Mchedlishvili,Levan Mchedlishvili,Elly M. Tanaka,Elly M. Tanaka +11 more
TL;DR: Two neuroepithelial cell systems are used, one derived from regenerating axolotl spinal cord and the other from human embryonic stem cells, to identify a molecular signaling pathway initiated by lysophosphatidic acid that controls apical membrane size and consequently controls and maintains epithelial organization and lumen size in neuroep ithelial rosettes.
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Interspecies Organogenesis for Human Transplantation
Andrew T. Crane,Rajagopal N. Aravalli,Atsushi Asakura,Andrew W. Grande,Venkatramana D. Krishna,Daniel F. Carlson,Maxim C.-J. Cheeran,Georgette Danczyk,James R. Dutton,Perry B. Hackett,Wei Shou Hu,Ling Li,Wei Cheng Lu,Zachary D. Miller,Timothy O'Brien,Angela Panoskaltsis-Mortari,Ann M. Parr,Clairice Pearce,Mercedes Ruiz-Estévez,Maple Shiao,Christopher J. Sipe,Nikolas G. Toman,Joseph P. Voth,Hui Xie,Clifford J. Steer,Walter C. Low +25 more
TL;DR: This review will focus on the pancreas, liver, heart, kidney, lung, and skeletal muscle, as well as cells of the immune and nervous systems, and identifies and discusses the common causes of organ failure and the current state of regenerative therapies.
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