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Literature DB >> 24604284

Gene profiling of human induced pluripotent stem cell-derived astrocyte progenitors following spinal cord engraftment.

Amanda M Haidet-Phillips¹, Laurent Roybon, Sarah K Gross, Alisha Tuteja, Christopher J Donnelly, Jean-Philippe Richard, Myungsung Ko, Alex Sherman, Kevin Eggan, Christopher E Henderson, Nicholas J Maragakis.

Abstract

The generation of human induced pluripotent stem cells (hiPSCs) represents an exciting advancement with promise for stem cell transplantation therapies as well as for neurological disease modeling. Based on the emerging roles for astrocytes in neurological disorders, we investigated whether hiPSC-derived astrocyte progenitors could be engrafted to the rodent spinal cord and how the characteristics of these cells changed between in vitro culture and after transplantation to the in vivo spinal cord environment. Our results show that human embryonic stem cell- and hiPSC-derived astrocyte progenitors survive long-term after spinal cord engraftment and differentiate to astrocytes in vivo with few cells from other lineages present. Gene profiling of the transplanted cells demonstrates the astrocyte progenitors continue to mature in vivo and upregulate a variety of astrocyte-specific genes. Given this mature astrocyte gene profile, this work highlights hiPSCs as a tool to investigate disease-related astrocyte biology using in vivo disease modeling with significant implications for human neurological diseases currently lacking animal models.

Entities: Disease Species

Keywords: Astrocytes; Gene profiling; Human induced pluripotent stem cells; Stem cell transplantation

Mesh：

Year: 2014 PMID： 24604284 PMCID： PMC4006486 DOI： 10.5966/sctm.2013-0153

Source DB: PubMed Journal: Stem Cells Transl Med ISSN： 2157-6564 Impact factor: 6.940

40 in total

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4. Grafted human-induced pluripotent stem-cell-derived neurospheres promote motor functional recovery after spinal cord injury in mice.

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Journal: Nat Biotechnol Date: 2011-02-03 Impact factor: 54.908

8. Reference Maps of human ES and iPS cell variation enable high-throughput characterization of pluripotent cell lines.

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21 in total

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Authors: Charles Nicaise; Dinko Mitrecic; Aditi Falnikar; Angelo C Lepore
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Journal: Brain Res Date: 2014-09-16 Impact factor: 3.252

Review 4. Therapeutically targeting astrocytes with stem and progenitor cell transplantation following traumatic spinal cord injury.

Authors: Aditi Falnikar; Ke Li; Angelo C Lepore
Journal: Brain Res Date: 2014-09-22 Impact factor: 3.252

5. Excess glutamate secreted from astrocytes drives upregulation of P-glycoprotein in endothelial cells in amyotrophic lateral sclerosis.

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Journal: Exp Neurol Date: 2019-04-09 Impact factor: 5.330

6. The Evolution of Stem Cells, Disease Modeling, and Drug Discovery for Neurological Disorders.

Authors: Cameron Pernia; Brian T D Tobe; Ryan O'Donnell; Evan Y Snyder
Journal: Stem Cells Dev Date: 2020-05-06 Impact factor: 3.272

7. Astrocytes drive upregulation of the multidrug resistance transporter ABCB1 (P-Glycoprotein) in endothelial cells of the blood-brain barrier in mutant superoxide dismutase 1-linked amyotrophic lateral sclerosis.

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