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Biphasic Role of Tgf-β Signaling during Müller Glia Reprogramming and Retinal Regeneration in Zebrafish

Poonam Sharma, Shivangi Gupta, Mansi Chaudhary, Soumitra Mitra, Bindia Chawla, Mohammad Anwar Khursheed, Navnoor Kaur Saran, Rajesh Ramachandran

2020iScience49 citationsDOIOpen Access PDF

Abstract

Tgf-β signaling is a major antiproliferative pathway governing different biological functions, including cellular reprogramming. Upon injury, Müller glial cells of zebrafish retina reprogram to form progenitors (MGPCs) essential for regeneration. Here, the significance of Tgf-β signaling for inducing MGPCs is explored. Notably, Tgf-β signaling not only performs a pro-proliferative function but also is necessary for the expression of several regeneration-associated, essential transcription factor genes such as ascl1a, lin28a, oct4, sox2, and zebs and various microRNAs, namely, miR-200a, miR-200b, miR-143, and miR-145 during different phases of retinal regeneration. This study also found the indispensable role played by Mmp2/Mmp9 in the efficacy of Tgf-β signaling. Furthermore, the Tgf-β signaling is essential to cause cell cycle exit of MGPCs towards later phases of regeneration. Finally, the Delta-Notch signaling in collaboration with Tgf-β signaling regulates the critical factor, Her4.1. This study provides novel insights into the biphasic roles of Tgf-β signaling in zebrafish during retinal regeneration.

Topics & Concepts

ZebrafishCell biologyMuller gliaReprogrammingRetinal regenerationRegeneration (biology)BiologySignal transductionNotch signaling pathwaySOX2Transforming growth factorTranscription factorProgenitor cellStem cellCellGeneticsGeneRenal and related cancersRetinal Development and DisordersDevelopmental Biology and Gene Regulation
Biphasic Role of Tgf-β Signaling during Müller Glia Reprogramming and Retinal Regeneration in Zebrafish | Litcius