MUC1 ligand, NM23-H1, is a novel growth factor that maintains human stem cells in a more naïve state

We report that a single growth factor, NM23-H1, enables serial passaging of both human ES and iPS cells in the absence of feeder cells, their conditioned media or bFGF in a fully defined xeno-free media on a novel defined, xeno-free surface. Stem cells cultured in this system show a gene expression...

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Veröffentlicht in:PloS one 2013-03, Vol.8 (3), p.e58601-e58601
Hauptverfasser: Smagghe, Benoit J, Stewart, Andrew K, Carter, Mark G, Shelton, Laura M, Bernier, Kyle J, Hartman, Eric J, Calhoun, Amy K, Hatziioannou, Vasilios M, Lillacci, Gabriele, Kirk, Brian A, DiNardo, Brian A, Kosik, Kenneth S, Bamdad, Cynthia
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Sprache:eng
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Zusammenfassung:We report that a single growth factor, NM23-H1, enables serial passaging of both human ES and iPS cells in the absence of feeder cells, their conditioned media or bFGF in a fully defined xeno-free media on a novel defined, xeno-free surface. Stem cells cultured in this system show a gene expression pattern indicative of a more "naïve" state than stem cells grown in bFGF-based media. NM23-H1 and MUC1* growth factor receptor cooperate to control stem cell self-replication. By manipulating the multimerization state of NM23-H1, we override the stem cell's inherent programming that turns off pluripotency and trick the cells into continuously replicating as pluripotent stem cells. Dimeric NM23-H1 binds to and dimerizes the extra cellular domain of the MUC1* transmembrane receptor which stimulates growth and promotes pluripotency. Inhibition of the NM23-H1/MUC1* interaction accelerates differentiation and causes a spike in miR-145 expression which signals a cell's exit from pluripotency.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0058601