Literature DB >> 32291273

NF-κB signaling regulates the formation of proliferating Müller glia-derived progenitor cells in the avian retina.

Isabella Palazzo1, Kyle Deistler1, Thanh V Hoang2, Seth Blackshaw2, Andy J Fischer3.   

Abstract

Retinal regeneration is robust in some cold-blooded vertebrates, but this process is ineffective in warm-blooded vertebrates. Understanding the mechanisms that suppress the reprogramming of Müller glia into neurogenic progenitors is key to harnessing the regenerative potential of the retina. Inflammation and reactive microglia are known to influence the formation of Müller glia-derived progenitor cells (MGPCs), but the mechanisms underlying this interaction are unknown. We used a chick in vivo model to investigate nuclear factor kappa B (NF-κB) signaling, a critical regulator of inflammation, during the reprogramming of Müller glia into proliferating progenitors. We find that components of the NF-κB pathway are dynamically regulated by Müller glia after neuronal damage or treatment with growth factors. Inhibition of NF-κB enhances, whereas activation suppresses, the formation of proliferating MGPCs. Following microglia ablation, the effects of NF-κB-agonists on MGPC-formation are reversed, suggesting that signals provided by reactive microglia influence how NF-κB impacts Müller glia reprogramming. We propose that NF-κB is an important signaling 'hub' that suppresses the reprogramming of Müller glia into proliferating MGPCs and this 'hub' coordinates signals provided by reactive microglia.
© 2020. Published by The Company of Biologists Ltd.

Entities:  

Keywords:  Glia; Müller glia; NF-κB; Regeneration; Retina

Mesh:

Substances:

Year:  2020        PMID: 32291273      PMCID: PMC7325431          DOI: 10.1242/dev.183418

Source DB:  PubMed          Journal:  Development        ISSN: 0950-1991            Impact factor:   6.862


  99 in total

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3.  Reactive retinal microglia, neuronal survival, and the formation of retinal folds and detachments.

Authors:  Andy J Fischer; Christopher Zelinka; Nima Milani-Nejad
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Authors:  Thi Sau Migone; Jun Zhang; Xia Luo; Li Zhuang; Cecil Chen; Bugen Hu; June S Hong; James W Perry; Su Fang Chen; Joe X H Zhou; Yun Hee Cho; Stephen Ullrich; Palanisamy Kanakaraj; Jeffrey Carrell; Ernest Boyd; Henrik S Olsen; Gang Hu; Laurie Pukac; Ding Liu; Jian Ni; Sunghee Kim; Reiner Gentz; Ping Feng; Paul A Moore; Steve M Ruben; Ping Wei
Journal:  Immunity       Date:  2002-03       Impact factor: 31.745

5.  Protein kinase C-theta participates in NF-kappaB activation induced by CD3-CD28 costimulation through selective activation of IkappaB kinase beta.

Authors:  X Lin; A O'Mahony; Y Mu; R Geleziunas; W C Greene
Journal:  Mol Cell Biol       Date:  2000-04       Impact factor: 4.272

6.  Notch signaling influences neuroprotective and proliferative properties of mature Müller glia.

Authors:  Kanika Ghai; Christopher Zelinka; Andy J Fischer
Journal:  J Neurosci       Date:  2010-02-24       Impact factor: 6.167

7.  The NF-κB inhibitor SC75741 efficiently blocks influenza virus propagation and confers a high barrier for development of viral resistance.

Authors:  Christina Ehrhardt; Andrea Rückle; Eike R Hrincius; Emanuel Haasbach; Darisuren Anhlan; Katharina Ahmann; Carina Banning; Sarah J Reiling; Joachim Kühn; Stefan Strobl; Daniel Vitt; Johann Leban; Oliver Planz; Stephan Ludwig
Journal:  Cell Microbiol       Date:  2013-02-05       Impact factor: 3.715

8.  Excitotoxic death of retinal neurons in vivo occurs via a non-cell-autonomous mechanism.

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9.  Adaptive Müller cell responses to microglial activation mediate neuroprotection and coordinate inflammation in the retina.

Authors:  Minhua Wang; Wenxin Ma; Lian Zhao; Robert N Fariss; Wai T Wong
Journal:  J Neuroinflammation       Date:  2011-12-07       Impact factor: 8.322

10.  Jak/Stat signaling regulates the proliferation and neurogenic potential of Müller glia-derived progenitor cells in the avian retina.

Authors:  Levi Todd; Natalie Squires; Lilianna Suarez; Andy J Fischer
Journal:  Sci Rep       Date:  2016-10-19       Impact factor: 4.379
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  12 in total

1.  NFkB-signaling promotes glial reactivity and suppresses Müller glia-mediated neuron regeneration in the mammalian retina.

Authors:  Isabella Palazzo; Levi J Todd; Thanh V Hoang; Thomas A Reh; Seth Blackshaw; Andy J Fischer
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2.  Fatty acid-binding proteins and fatty acid synthase influence glial reactivity and promote the formation of Müller glia-derived progenitor cells in the chick retina.

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4.  Nuclear Factor I in neurons, glia and during the formation of Müller glia-derived progenitor cells in avian, porcine and primate retinas.

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Journal:  J Comp Neurol       Date:  2021-12-15       Impact factor: 3.215

5.  Gene regulatory networks controlling vertebrate retinal regeneration.

Authors:  Thanh Hoang; Jie Wang; Patrick Boyd; Fang Wang; Clayton Santiago; Lizhi Jiang; Sooyeon Yoo; Manuela Lahne; Levi J Todd; Meng Jia; Cristian Saez; Casey Keuthan; Isabella Palazzo; Natalie Squires; Warren A Campbell; Fatemeh Rajaii; Trisha Parayil; Vickie Trinh; Dong Won Kim; Guohua Wang; Leah J Campbell; John Ash; Andy J Fischer; David R Hyde; Jiang Qian; Seth Blackshaw
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Review 6.  Inflammation Regulates the Multi-Step Process of Retinal Regeneration in Zebrafish.

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Review 7.  Retinal Plasticity.

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8.  Why Has the Ability to Regenerate Following CNS Injury Been Repeatedly Lost Over the Course of Evolution?

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9.  Midkine is neuroprotective and influences glial reactivity and the formation of Müller glia-derived progenitor cells in chick and mouse retinas.

Authors:  Warren A Campbell; Amanda Fritsch-Kelleher; Isabella Palazzo; Thanh Hoang; Seth Blackshaw; Andy J Fischer
Journal:  Glia       Date:  2021-02-10       Impact factor: 7.452

10.  Cannabinoid signaling promotes the de-differentiation and proliferation of Müller glia-derived progenitor cells.

Authors:  Warren A Campbell; Sydney Blum; Alana Reske; Thanh Hoang; Seth Blackshaw; Andy J Fischer
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