G E Rooney1, G I Nistor, F B Barry, H S Keirstead. 1. Regenerative Medicine Institute, National Centre for Biomedical & Engineering Science, National University of Ireland, Galway, Ireland.
Abstract
BACKGROUND: There is widespread controversy regarding the potential of human neural stem cells and human mesenchymal stem cells (hMSCs) to form cell types outside of their normal developmental lineage. A greater understanding of the differentiation potential and bias of these stem cell types would allow researchers to select the cell type that best suits the research or clinical need at hand. MATERIALS & METHODS: We used identical in vitro protocols to quantitatively compare the potential of human embryonic stem cells, human neural stem cells and hMSCs to differentiate into specific ectodermal or mesodermal lineages. RESULTS: Our findings demonstrate that human embryonic stem cells and human neural stem cells have the ability to differentiate into high purity neuronal progenitor or oligodendrocyte progenitor cultures. By contrast, hMSCs generated exceedingly limited numbers of neural lineages. Both human embryonic stem cells and hMSCs generated adipocytes and osteocytes when exposed to mesodermal differentiation conditions. CONCLUSION: These studies underscore the importance of distinguishing differentiation potential from differentiation bias, an important consideration in the development of cell replacement strategies.
BACKGROUND: There is widespread controversy regarding the potential of human neural stem cells and human mesenchymal stem cells (hMSCs) to form cell types outside of their normal developmental lineage. A greater understanding of the differentiation potential and bias of these stem cell types would allow researchers to select the cell type that best suits the research or clinical need at hand. MATERIALS & METHODS: We used identical in vitro protocols to quantitatively compare the potential of human embryonic stem cells, human neural stem cells and hMSCs to differentiate into specific ectodermal or mesodermal lineages. RESULTS: Our findings demonstrate that human embryonic stem cells and human neural stem cells have the ability to differentiate into high purity neuronal progenitor or oligodendrocyte progenitor cultures. By contrast, hMSCs generated exceedingly limited numbers of neural lineages. Both human embryonic stem cells and hMSCs generated adipocytes and osteocytes when exposed to mesodermal differentiation conditions. CONCLUSION: These studies underscore the importance of distinguishing differentiation potential from differentiation bias, an important consideration in the development of cell replacement strategies.
Authors: Nadejda V Mezentseva; Jinpu Yang; Keerat Kaur; Grazia Iaffaldano; Mathieu C Rémond; Carol A Eisenberg; Leonard M Eisenberg Journal: Stem Cells Dev Date: 2012-11-07 Impact factor: 3.272
Authors: Debra Franck; Eun Seok Gil; Rosalyn M Adam; David L Kaplan; Yeun Goo Chung; Carlos R Estrada; Joshua R Mauney Journal: PLoS One Date: 2013-02-07 Impact factor: 3.240