Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes

GATA binding protein 3 (Gata3), a zinc-finger transcription factor, plays an important role in neural development. However, its expression and bioactivity in the retina remain unclear. In the present study, our data indicated that Gata3 maintains the precursor state of 661W cells, and Gata3 silencin...

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Autores principales: Chen, Pei, Wu, Yihui, Zhuang, Jiejie, Liu, Xuan, Luo, Qian, Wang, Qiyun, Jiang, Zihua, He, Anqi, Chen, Shuilian, Chen, Xi, Qiu, Jin, Li, Yan, Yang, Ying, Yu, Keming, Zhuang, Jing
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8910128/
https://www.ncbi.nlm.nih.gov/pubmed/35269648
http://dx.doi.org/10.3390/ijms23052495
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author Chen, Pei
Wu, Yihui
Zhuang, Jiejie
Liu, Xuan
Luo, Qian
Wang, Qiyun
Jiang, Zihua
He, Anqi
Chen, Shuilian
Chen, Xi
Qiu, Jin
Li, Yan
Yang, Ying
Yu, Keming
Zhuang, Jing
author_facet Chen, Pei
Wu, Yihui
Zhuang, Jiejie
Liu, Xuan
Luo, Qian
Wang, Qiyun
Jiang, Zihua
He, Anqi
Chen, Shuilian
Chen, Xi
Qiu, Jin
Li, Yan
Yang, Ying
Yu, Keming
Zhuang, Jing
author_sort Chen, Pei
collection PubMed
description GATA binding protein 3 (Gata3), a zinc-finger transcription factor, plays an important role in neural development. However, its expression and bioactivity in the retina remain unclear. In the present study, our data indicated that Gata3 maintains the precursor state of 661W cells, and Gata3 silencing induces cell differentiation. The expression of Nestin, a marker of precursor cells, was significantly decreased in parallel, whereas the expression of Map2, a marker of differentiated neurons, was significantly increased following the decrease in Gata3. Neurite outgrowth was increased by 2.78-fold in Gata3-silenced cells. Moreover, Gata3 expression generally paralleled that of Nestin in developing mouse retinas. Both Gata3 and Nestin were expressed in the retina at postnatal day 1 and silenced in the adult mouse retina. Exogenous Gata3 significantly inhibited the neural activity of primary retinal neurocytes (postnatal day 1) by decreasing synaptophysin levels, neurite outgrowth, and cell viability. Furthermore, in vivo, exogenous Gata3 significantly induced apoptosis and the contraction of retinal outlay filaments and decreased the a- and b-waves in adult mouse intravitreal injected with AAV-Re-Gata3-T2A-GFP. Thus, Gata3 silencing promotes neuronal differentiation and neurite outgrowth. Its abnormal expression impedes neural activity in adult retinal neurocytes. This study provides new insights into Gata3 bioactivity in retinal neurocytes.
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spelling pubmed-89101282022-03-11 Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes Chen, Pei Wu, Yihui Zhuang, Jiejie Liu, Xuan Luo, Qian Wang, Qiyun Jiang, Zihua He, Anqi Chen, Shuilian Chen, Xi Qiu, Jin Li, Yan Yang, Ying Yu, Keming Zhuang, Jing Int J Mol Sci Article GATA binding protein 3 (Gata3), a zinc-finger transcription factor, plays an important role in neural development. However, its expression and bioactivity in the retina remain unclear. In the present study, our data indicated that Gata3 maintains the precursor state of 661W cells, and Gata3 silencing induces cell differentiation. The expression of Nestin, a marker of precursor cells, was significantly decreased in parallel, whereas the expression of Map2, a marker of differentiated neurons, was significantly increased following the decrease in Gata3. Neurite outgrowth was increased by 2.78-fold in Gata3-silenced cells. Moreover, Gata3 expression generally paralleled that of Nestin in developing mouse retinas. Both Gata3 and Nestin were expressed in the retina at postnatal day 1 and silenced in the adult mouse retina. Exogenous Gata3 significantly inhibited the neural activity of primary retinal neurocytes (postnatal day 1) by decreasing synaptophysin levels, neurite outgrowth, and cell viability. Furthermore, in vivo, exogenous Gata3 significantly induced apoptosis and the contraction of retinal outlay filaments and decreased the a- and b-waves in adult mouse intravitreal injected with AAV-Re-Gata3-T2A-GFP. Thus, Gata3 silencing promotes neuronal differentiation and neurite outgrowth. Its abnormal expression impedes neural activity in adult retinal neurocytes. This study provides new insights into Gata3 bioactivity in retinal neurocytes. MDPI 2022-02-24 /pmc/articles/PMC8910128/ /pubmed/35269648 http://dx.doi.org/10.3390/ijms23052495 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Chen, Pei
Wu, Yihui
Zhuang, Jiejie
Liu, Xuan
Luo, Qian
Wang, Qiyun
Jiang, Zihua
He, Anqi
Chen, Shuilian
Chen, Xi
Qiu, Jin
Li, Yan
Yang, Ying
Yu, Keming
Zhuang, Jing
Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes
title Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes
title_full Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes
title_fullStr Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes
title_full_unstemmed Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes
title_short Gata3 Silencing Is Involved in Neuronal Differentiation and Its Abnormal Expression Impedes Neural Activity in Adult Retinal Neurocytes
title_sort gata3 silencing is involved in neuronal differentiation and its abnormal expression impedes neural activity in adult retinal neurocytes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8910128/
https://www.ncbi.nlm.nih.gov/pubmed/35269648
http://dx.doi.org/10.3390/ijms23052495
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