The transcription factor SOX2 is important for brain development and for neural stem cells (NSC) maintenance. Sox2-deleted (Sox2-del) NSC from neonatal mouse brain are lost after few passages in culture. Two highly expressed genes, Fos and Socs3, are strongly downregulated in Sox2-del NSC; we previously showed that Fos or Socs3 overexpression by lentiviral transduction fully rescues NSC’s long-term maintenance in culture. Sox2-del NSC are severely defective in neuronal production when induced to differentiate. NSC rescued by Sox2 reintroduction correctly differentiate into neurons. Similarly, Fos transduction rescues normal or even increased numbers of immature neurons expressing beta-tubulinIII, but not more differentiated markers (MAP2). Additionally, many cells with both beta-tubulinIII and GFAP expression appear, indicating that FOS stimulates the initial differentiation of a “mixed” neuronal/glial progenitor. The unexpected rescue by FOS suggested that FOS, a SOX2 transcriptional target, might act on neuronal genes, together with SOX2. CUT&RUN analysis to detect genome-wide binding of SOX2, FOS, and JUN (the AP1 complex) revealed that a high proportion of genes expressed in NSC are bound by both SOX2 and AP1. Downregulated genes in Sox2-del NSC are highly enriched in genes that are also expressed in neurons, and a high proportion of the “neuronal” genes are bound by both SOX2 and AP1.

Pagin, M., Pernebrink, M., Pitasi, M., Malighetti, F., Ngan, C., Ottolenghi, S., et al. (2021). Fos rescues neuronal differentiation of sox2-deleted neural stem cells by genome-wide regulation of common sox2 and ap1(Fos-jun) target genes. CELLS, 10(7) [10.3390/cells10071757].

Fos rescues neuronal differentiation of sox2-deleted neural stem cells by genome-wide regulation of common sox2 and ap1(Fos-jun) target genes

Pagin M.;Malighetti F.;Ottolenghi S.;Nicolis S. K.
2021

Abstract

The transcription factor SOX2 is important for brain development and for neural stem cells (NSC) maintenance. Sox2-deleted (Sox2-del) NSC from neonatal mouse brain are lost after few passages in culture. Two highly expressed genes, Fos and Socs3, are strongly downregulated in Sox2-del NSC; we previously showed that Fos or Socs3 overexpression by lentiviral transduction fully rescues NSC’s long-term maintenance in culture. Sox2-del NSC are severely defective in neuronal production when induced to differentiate. NSC rescued by Sox2 reintroduction correctly differentiate into neurons. Similarly, Fos transduction rescues normal or even increased numbers of immature neurons expressing beta-tubulinIII, but not more differentiated markers (MAP2). Additionally, many cells with both beta-tubulinIII and GFAP expression appear, indicating that FOS stimulates the initial differentiation of a “mixed” neuronal/glial progenitor. The unexpected rescue by FOS suggested that FOS, a SOX2 transcriptional target, might act on neuronal genes, together with SOX2. CUT&RUN analysis to detect genome-wide binding of SOX2, FOS, and JUN (the AP1 complex) revealed that a high proportion of genes expressed in NSC are bound by both SOX2 and AP1. Downregulated genes in Sox2-del NSC are highly enriched in genes that are also expressed in neurons, and a high proportion of the “neuronal” genes are bound by both SOX2 and AP1.
Articolo in rivista - Articolo scientifico
Chromatin; CUT&RUN; Fos; Gliogenesis; Neural stem cells; Neurogenesis; Socs3; Sox2; Transcription factors;
English
Pagin, M., Pernebrink, M., Pitasi, M., Malighetti, F., Ngan, C., Ottolenghi, S., et al. (2021). Fos rescues neuronal differentiation of sox2-deleted neural stem cells by genome-wide regulation of common sox2 and ap1(Fos-jun) target genes. CELLS, 10(7) [10.3390/cells10071757].
Pagin, M; Pernebrink, M; Pitasi, M; Malighetti, F; Ngan, C; Ottolenghi, S; Pavesi, G; Cantu, C; Nicolis, S
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/367226
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