Lan Chen's research works | Wenzhou Medical University and other places

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NMDA reduces BRN3A+ and FG labeled RGCs. a Immunostaining of BRN3A in retina 2 days after the last injection of: PBS plus PBS (P + P), PBS plus EGF (P + E), NMDA plus PBS (N + P), and NMDA plus EGF (N + E). b Retina was labeled with Fluorogold (FG) injected into the superior colliculi (SC) 5 days before receiving the indicated drug treatments. FG-labeled RGCs were counted 2 days after the drug treatment. Bars in a and b are 20 μm. The inserts in a and b show whole mount retina with bar 500 μm. c, d Statistical analysis of BRN3A and FG-labeled RGCs in Figure a, b, respectively. Data represent mean ± SD from three independent experiments, ***p < 0.001

NMDA plus EGF increases Müller glial cells. a Immunostaining of GFAP in the retinal Section 2 days after the injection of a combination of PBS (P), NMDA (N) and or EGF (E). Scale bar 20 μm. b Statistical analysis of Integrated Optical Density (IOD) for the GFAP staining in Figure (a). GCL ganglion cell layer, IPL inner plexiform layer, INL inner nucleus layer, OPL outer plexiform layer, ONL outer nucleus layer. Data represent mean ± SD from three independent experiments, ***p < 0.001

Proliferation of Müller glial cells in response to NMDA plus EGF. a EdU incorporation in the retina 2 days after the injection of a combination of PBS (P), NMDA (N) and or EGF (E). Arrows indicate the nuclei double-labeled with EdU and SOX9 as determined by immunofluorescence. Scale bar 20 μm. b Statistical analysis of the colocalization of EdU+ and SOX9+ cells in a. ***p < 0.001, n = 3

Expression of stem cell markers in the drug-treated retina. a Quantitative PCR analysis of the expression of stem cell markers in the retina treated with NMDA plus EGF (N + E) for 24 h. The expression in the control receiving PBS plus PBS (P + P) was assigned to a value 1. *p < 0.05. b Immunofluorescence of NESTIN in the control and NMDA + EGF-treated retinas. a, b, c: High-magnification images of the boxed regions. Scale bar 20 μm. c Expression of NESTIN in the single cell preparation of NMDA + EGF-retina was colocalized with the Müller cells marker EAAT1

Hypomethylation of Nanog and Nestin regulatory regions in response to NMDA + EGF. a The Nanog promoter consists of a differentially methylated region (DMR) that is divided into a distal (−952 to −789) and a proximal (−566 to −437) part. A neural stem cell-specific enhancer is located in the second intron of Nestin (2333 to 2451). Beneath the genomic structures are the DNA methylation status of the promoter and the enhancer in the retina treated 1 day with NMDA + EGF (N + E) or without the drugs (P + P). Open circles demethylated; filled circles methylated. b Comparisons of the average methylation ratio from three independent experiments in distal and proximal DMR of Nanog, and in the Nestin enhancer, between control and drug-treated retinas, *p < 0.05

Apobec1 Promotes Neurotoxicity-Induced Dedifferentiation of Müller Glial Cells

April 2017

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8 Citations

Neurochemical Research

[...]

Retinal Müller glial cells in mammals acquire stem and progenitor cell properties after neurotoxic treatment. However, the molecular mechanisms underlying proliferation and dedifferentiation of adult Müller cells in the mammalian retina were unclear. In this study, treatments with N-methyl-d-aspartate (NMDA) plus epidermal growth factor (EGF) led to the proliferation of Müller cells and expression of stem cell markers including Nanog and Nestin in the retina. The increased mRNA for Nanog and Nestin were coincident with reduced methylation of a Nanog promoter and a Nestin enhancer specific in the neural stem cells, respectively. We found that Apolipoprotein B mRNA editing catalytic subunit 1 (Apobec1) was upregulated early in the retina treated with NMDA and EGF. Moreover, overexpression of Apobec1 in primary Müller cells increased expression of Nestin and reduced methylation of the Nestin enhancer. The data suggest that neurotoxicity-induced Apobec1 may promote expression of Nestin and help cell cycle reentry of retinal Müller cells via DNA demethylation. This study provides novel insights into the molecular mechanisms underlying dedifferentiation and proliferation of Müller cells in the mammalian retina.

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... However, ASCL1 expression is rapidly upregulated in Müller glial cells after retinal injury (Ramachandran et al., 2015;Ueki et al., 2015). Likewise, DNA demethylation during zebrafish retinal development is thought to occur by the coupling of APOBEC cytidine deaminase, glycosylase, and GADD45 proteins (Rai et al., 2008;Xiao et al., 2017). A recent study demonstrated that gene knockout of two cytidine deaminases (Apobec2a and Apobec2b) resulted in significantly reduced retinal and optic nerve regeneration. ...
Reference:
Epigenetic mechanisms of Müller glial reprogramming mediating retinal regeneration

Apobec1 Promotes Neurotoxicity-Induced Dedifferentiation of Müller Glial Cells

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April 2017

Neurochemical Research

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Lan Chen's research while affiliated with Wenzhou Medical University and other places

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