Directing Stem Cell Fate: The Synthetic Natural Product Connection

Stem cells possess remarkable potential for the treatment of a broad array of diseases including many that lack therapeutic options. However, the use of cell-based products derived from stem cells as therapeutics has limitations including rejection, sufficient availability, and lack of appropriate e...

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Veröffentlicht in:	Chemical reviews 2017-09, Vol.117 (18), p.12052-12086
Hauptverfasser:	Johnson, Trevor C, Siegel, Dionicio
Format:	Artikel
Sprache:	eng
Schlagworte:	Biological Products - chemical synthesis Biological Products - chemistry Biological Products - pharmacology Cellular manufacture Chemical synthesis Chemicals Control Human tissues Humans Medical treatment Modulators Molecular Conformation Molecules Natural products Pharmacokinetics Pharmacology Production methods Stem cells Stem Cells - drug effects Stem Cells - metabolism Tissues
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creator	Johnson, Trevor C Siegel, Dionicio
description	Stem cells possess remarkable potential for the treatment of a broad array of diseases including many that lack therapeutic options. However, the use of cell-based products derived from stem cells as therapeutics has limitations including rejection, sufficient availability, and lack of appropriate engraftment. Chemical control of stem cells provides potential solutions for overcoming many of the current limitations in cell-based therapeutics. The development of exogenous molecules to control stem cell self-renewal or differentiation has arrived at natural product-based agents as an important class of modulators. The ex vivo production of cryopreserved cellular products for use in tissue repair is a relatively new area of medicine in which the conventional hurdles to implementing chemicals to effect human health are changed. Translational challenges centered on chemistry, such as pharmacokinetics, are reduced. Importantly, in many cases the desired human tissues can be evaluated against new chemicals, and approaches to cellular regulation can be validated in the clinically applicable system. As a result linking new and existing laboratory syntheses of natural products with findings of the compounds’ unique abilities to regulate stem cell fate provides opportunities for developing improved methods for tissue manufacture, accessing probe compounds, and generating new leads that yield manufactured cells with improved properties. This review provides a summary of natural products that have shown promise in controlling stem cell fate and which have also been fully synthesized thereby providing chemistry platforms for further development.
doi_str_mv	10.1021/acs.chemrev.7b00015
format	Article
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Rev</addtitle><date>2017-09-27</date><risdate>2017</risdate><volume>117</volume><issue>18</issue><spage>12052</spage><epage>12086</epage><pages>12052-12086</pages><issn>0009-2665</issn><eissn>1520-6890</eissn><abstract>Stem cells possess remarkable potential for the treatment of a broad array of diseases including many that lack therapeutic options. However, the use of cell-based products derived from stem cells as therapeutics has limitations including rejection, sufficient availability, and lack of appropriate engraftment. Chemical control of stem cells provides potential solutions for overcoming many of the current limitations in cell-based therapeutics. The development of exogenous molecules to control stem cell self-renewal or differentiation has arrived at natural product-based agents as an important class of modulators. 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subjects	Biological Products - chemical synthesis Biological Products - chemistry Biological Products - pharmacology Cellular manufacture Chemical synthesis Chemicals Control Human tissues Humans Medical treatment Modulators Molecular Conformation Molecules Natural products Pharmacokinetics Pharmacology Production methods Stem cells Stem Cells - drug effects Stem Cells - metabolism Tissues
title	Directing Stem Cell Fate: The Synthetic Natural Product Connection
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