Abstract
Recent progress in the field of cellular reprogramming has opened up the doors to a new era of disease modelling, as pluripotent stem cells representing a myriad of genetic diseases can now be produced from patient tissue. These cells can be expanded and differentiated to produce a potentially limitless supply of the affected cell type, which can then be used as a tool to improve understanding of disease mechanisms and test therapeutic interventions. This process requires high levels of scrutiny and validation at every stage, but international standards for the characterisation of pluripotent cells and their progeny have yet to be established. Here we discuss the current state of the art with regard to modelling diseases affecting the ectodermal, mesodermal and endodermal lineages, focussing on studies which have demonstrated a disease phenotype in the tissue of interest. We also discuss the utility of pluripotent cell technology for the modelling of cancer and infectious disease. Finally, we spell out the technical and scientific challenges which must be addressed if the field is to deliver on its potential and produce improved patient outcomes in the clinic.
Keywords: Induced pluripotent stem cells, human embryonic stem cells, neurodevelopmental disorders, endodermal disorders, mesodermal disorders, reprogramming, disease modelling
Current Gene Therapy
Title:Modelling Human Disease with Pluripotent Stem Cells
Volume: 13 Issue: 2
Author(s): Richard Siller, Sebastian Greenhough, In-Hyun Park and Gareth J. Sullivan
Affiliation:
Keywords: Induced pluripotent stem cells, human embryonic stem cells, neurodevelopmental disorders, endodermal disorders, mesodermal disorders, reprogramming, disease modelling
Abstract: Recent progress in the field of cellular reprogramming has opened up the doors to a new era of disease modelling, as pluripotent stem cells representing a myriad of genetic diseases can now be produced from patient tissue. These cells can be expanded and differentiated to produce a potentially limitless supply of the affected cell type, which can then be used as a tool to improve understanding of disease mechanisms and test therapeutic interventions. This process requires high levels of scrutiny and validation at every stage, but international standards for the characterisation of pluripotent cells and their progeny have yet to be established. Here we discuss the current state of the art with regard to modelling diseases affecting the ectodermal, mesodermal and endodermal lineages, focussing on studies which have demonstrated a disease phenotype in the tissue of interest. We also discuss the utility of pluripotent cell technology for the modelling of cancer and infectious disease. Finally, we spell out the technical and scientific challenges which must be addressed if the field is to deliver on its potential and produce improved patient outcomes in the clinic.
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Cite this article as:
Siller Richard, Greenhough Sebastian, Park In-Hyun and J. Sullivan Gareth, Modelling Human Disease with Pluripotent Stem Cells, Current Gene Therapy 2013; 13 (2) . https://dx.doi.org/10.2174/1566523211313020004
DOI https://dx.doi.org/10.2174/1566523211313020004 |
Print ISSN 1566-5232 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-5631 |
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Programmed Cell Death (PCD) is recognized as a pivotal biological mechanism with far-reaching effects in the realm of cancer therapy. This complex process encompasses a variety of cell death modalities, including apoptosis, autophagic cell death, pyroptosis, and ferroptosis, each of which contributes to the intricate landscape of cancer development and ...read more
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