Abstract
Recent studies have shown evidence for the functional integration of human pluripotent stem cell (hPSC)‐derived ventral midbrain dopamine (vmDA) neurons in animal models of Parkinson’s disease. Although these cells present a sustainable alternative to fetal mesencephalic grafts, a number of hurdles require attention prior to clinical translation. These include the persistent use of xenogeneic reagents and challenges associated with scalability and storage of differentiated cells. In this study, we describe the first fully defined feeder‐ and xenogeneic‐free protocol for the generation of vmDA neurons from hPSCs and utilize two novel reporter knock‐in lines (LMX1A‐eGFP and PITX3‐eGFP) for in‐depth in vitro and in vivo tracking. Across multiple embryonic and induced hPSC lines, this “next generation” protocol consistently increases both the yield and proportion of vmDA neural progenitors (OTX2/FOXA2/LMX1A) and neurons (FOXA2/TH/PITX3) that display classical vmDA metabolic and electrophysiological properties. We identify the mechanism underlying these improvements and demonstrate clinical applicability with the first report of scalability and cryopreservation of bona fide vmDA progenitors at a time amenable to transplantation. Finally, transplantation of xeno‐free vmDA progenitors from LMX1A‐ and PITX3‐eGFP reporter lines into Parkinsonian rodents demonstrates improved engraftment outcomes and restoration of motor deficits. These findings provide important and necessary advancements for the translation of hPSC‐derived neurons into the clinic. Stem Cells Translational Medicine 2017;6:937–948
Highlights
Following 11 days of differentiation variable FOXA2 and OTX2 expression patterns were observed across independent cultures; (Bi-Di) robust patterning; (BiiDii) variable patterning
Vitronectin proved unreliable for long-term adherence of differentiated cultures (I-L, arrows indicating regions of cultures that have detatched) in comparison to rhLaminin-521
Forward Primer (5’-3’) CTTGCTGCGCCTCCGCCT CTGGAGAAGGAGAAGCTGGA GCCCGAGGGCTACTCCTCCG CTGCTGGGCAGAGCGGTGAG TTTCTGCCTTCTCCTGCATT
Summary
Following 11 days of differentiation variable FOXA2 and OTX2 expression patterns were observed across independent cultures; (Bi-Di) robust patterning; (BiiDii) variable patterning. Increased xenogeneic hPSC seed densities on Matrigel (0.675x106/cm2, E) improved differentiation reproducibility with robust expression of FOXA2 and OTX2 (Fi-Hi). Widespread OTX2 and FOXA2 expression was observed from xeno-free hPSCs on Matrigel differentiated in fully defined and xeno-free media (Fii-Hii).
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