Abstract
BackgroundSox2 is a well-established pluripotent transcription factor that plays an essential role in establishing and maintaining pluripotent stem cells (PSCs). It is also thought to be a linage specifier that governs PSC neural lineage specification upon their exiting the pluripotent state. However, the exact role of SOX2 in human PSCs was still not fully understood. In this study, we studied the role of SOX2 in human embryonic stem cells (hESCs) by gain- and loss-of-function approaches and explored the possible underlying mechanisms.ResultsWe demonstrate that knockdown of SOX2 induced hESC differentiation to endoderm-like cells, whereas overexpression of SOX2 in hESCs enhanced their pluripotency under self-renewing culture conditions but promoted their neural differentiation upon replacing the culture to non-self-renewal conditions. We show that this culture-dependent dual function of SOX2 was probably attributed to its interaction with different transcription factors predisposed by the culture environments. Whilst SOX2 interacts with OCT4 under self-renewal conditions, we found that, upon neural differentiation, PAX6, a key neural transcription factor, is upregulated and shows interaction with SOX2. The SOX2-PAX6 complex has different gene regulation pattern from that of SOX2-OCT4 complex.ConclusionsOur work provides direct evidence that SOX2 is necessarily required for hESC pluripotency; however, it can also function as a neural factor, depending on the environmental input. OCT4 and PAX6 might function as key SOX2-interacting partners that determine the function of SOX2 in hESCs.
Highlights
Sox2 is a well-established pluripotent transcription factor that plays an essential role in establishing and maintaining pluripotent stem cells (PSCs)
Deficiency of SOX2 results in the loss of both human embryonic stem cells (hESCs) and neural progenitor properties To validate the function of SOX2 in hESCs, we firstly interrupted SOX2 expression in self-renewing hESCs by lentiviral-transduced shRNAs in H1 and H7 hESCs [29]
The alterations in gene expression profile were consistent with the observed morphological changes and demonstrated that hESCs were mainly differentiated into an endoderm-like cell type in the absence of SOX2
Summary
Sox is a well-established pluripotent transcription factor that plays an essential role in establishing and maintaining pluripotent stem cells (PSCs). In addition to its function in pluripotency, Sox exhibits distinct expression dynamics upon ESC differentiation to neuroectoderm and mesendoderm (Additional file 1: Figure S1). It is highly expressed in the neuroectoderm whilst quickly downregulated in the mesendoderm [7,8,9]. It has been proposed that Sox is a vital pluripotency factor and a neuroectodermal lineage specifier [8, 12]
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