Overexpression of neural miRNAs miR‐9/9 and miR‐124 suppresses differentiation to Müller glia and promotes differentiation to neurons in mouse retina in vivo

Overexpression of neural miRNAs miR‐9/9 and miR‐124 suppresses differentiation to Müller glia and promotes differentiation to neurons in mouse retina in vivo

MicroRNAs (miRNAs) are known to regulate gene expression and modulate cellular differentiation. MicroRNA‐9/9* (miR‐9/9*) and microRNA‐124 (miR‐124) are highly expressed in the central nervous system. In vivo function of miR‐9/9* and miR‐124 has been investigated in detail, whereas there remain some...

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Veröffentlicht in:Genes to cells : devoted to molecular & cellular mechanisms 2020-11, Vol.25 (11), p.741-752
Hauptverfasser: Suzuki, Fumiko, Okuno, Mariko, Tanaka, Tomoya, Sanuki, Rikako
Format: Artikel
Sprache:eng
Schlagworte:
Apoptosis
Cell differentiation
Cell fate
Cell proliferation
Central nervous system
Gene expression
Glial cells
microRNA
MicroRNAs
miRNA
miR‐124
miR‐9/9
Neonates
Neural stem cells
Neuronal-glial interactions
Plasmids
Progenitor cells
Retina
retinal cell fate
Sox9 protein
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container_issue 11
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creator Suzuki, Fumiko
Okuno, Mariko
Tanaka, Tomoya
Sanuki, Rikako
description MicroRNAs (miRNAs) are known to regulate gene expression and modulate cellular differentiation. MicroRNA‐9/9* (miR‐9/9*) and microRNA‐124 (miR‐124) are highly expressed in the central nervous system. In vivo function of miR‐9/9* and miR‐124 has been investigated in detail, whereas there remain some discrepancies regarding neural development. To this end, we electroporated miR‐9/9*, miR‐124 or miR‐9/9*/124 expression plasmids into neonatal retinal progenitor cells (RPCs) in vivo and analyzed the fate of electroporated cells. Both miR‐9/9* and miR‐124 reduced the number of SOX9‐ and GS‐positive cells and increased that of TUBB3‐positive cells in the postnatal day 14 retina. No major effects on the proliferation and apoptosis of the electroporated cells were detected at least postnatal day 3. These indicated that miR‐9/9* and miR‐124 influence the cell fate of glial cells, thereby inducing their differentiation into neurons. Moreover, we found this cell fate modulation was occurred in RPCs indicating high‐level expression of miRNA, but not in the low level. Our results strongly suggest that high‐level miRNA overexpression is essential for directing cell fate by miR‐9/9* and miR‐124 interference. We electroporated control, miR‐9/9*, miR‐124 and miR‐9/9*/124 expression plasmids into mouse neonatal retinas, respectively. The expression of these miRNAs reduced the number of SOX9‐positive and GS‐positive cells and increased the number of TUBB3‐positive cells in the retina at 14 days of age in comparison with the control.
doi_str_mv 10.1111/gtc.12809
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subjects Apoptosis
Cell differentiation
Cell fate
Cell proliferation
Central nervous system
Gene expression
Glial cells
microRNA
MicroRNAs
miRNA
miR‐124
miR‐9/9
Neonates
Neural stem cells
Neuronal-glial interactions
Plasmids
Progenitor cells
Retina
retinal cell fate
Sox9 protein
title Overexpression of neural miRNAs miR‐9/9 and miR‐124 suppresses differentiation to Müller glia and promotes differentiation to neurons in mouse retina in vivo
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