The cellular form of the prion protein guides the differentiation of human embryonic stem cells into neuron- oligodendrocyte- and astrocyte-committed lineages

摘要

Prion protein, PrP^C, is a glycoprotein that is expressed on the cell surface beginning with the early stages of embryonic stem cell differentiation. Previously, we showed that ectopic expression of PrP^C in human embryonic stem cells (hESCs) triggered differentiation toward endodermal, mesodermal, and ectodermal lineages, whereas silencing of PrP^C suppressed differentiation toward ectodermal but not endodermal or mesodermal lineages. Considering that PrP^C might be involved in controlling the balance between cells of different lineages, the current study was designed to test whether PrP^C controls differentiation of hESCs into cells of neuron-, oligodendrocyte-, and astrocyte-committed lineages. PrP^C was silenced in hESCs cultured under three sets of conditions that were previously shown to induce hESCs differentiation into predominantly neuron-, oligodendrocyte-, and astrocyte-committed lineages. We found that silencing of PrP^C suppressed differentiation toward all three lineages. Similar results were observed in all three protocols, arguing that the effect of PrP^C was independent of differentiation conditions employed. Moreover, switching PrP^C expression during a differentiation time course revealed that silencing PrP^C expression during the very initial stage that corresponds to embryonic bodies has a more significant impact than silencing at later stages of differentiation. The current work illustrates that PrP^C controls differentiation of hESCs toward neuron-, oligodendrocyte-, and astrocyte-committed lineages and is likely involved at the stage of uncommitted neural progenitor cells rather than lineage-committed neural progenitors.