Calcineurin controls proximodistal blastema polarity in zebrafish fin regeneration

Planarian flatworms regenerate their heads and tails from anterior or posterior wounds and this regenerative blastema polarity is controlled by Wnt/β-catenin signaling. It is well known that a regeneration blastema of appendages of vertebrates such as fish and amphibians grows distally. However, it...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2021-01, Vol.118 (2), p.1-8
Hauptverfasser:	Cao, Zigang, Meng, Yunlong, Gong, Fanghua, Xu, Zhaopeng, Liu, Fasheng, Fang, Mengjie, Zou, Lufang, Liao, Xinjun, Wang, Xinjuan, Luo, Lingfei, Li, Xiaokun, Lu, Huiqiang
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Schlagworte:	Amphibians Animal Fins - physiology Animals Appendages Biological Sciences Calcineurin Calcineurin - metabolism Cell Polarity - physiology Danio rerio Excavation Extremities - physiology Fins Flatworms Molecular machines Polarity Regeneration Regeneration - physiology Signal Transduction Vertebrates Wnt protein Wound Healing - physiology Zebrafish Zebrafish - metabolism Zebrafish Proteins β-Catenin
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creator	Cao, Zigang Meng, Yunlong Gong, Fanghua Xu, Zhaopeng Liu, Fasheng Fang, Mengjie Zou, Lufang Liao, Xinjun Wang, Xinjuan Luo, Lingfei Li, Xiaokun Lu, Huiqiang
description	Planarian flatworms regenerate their heads and tails from anterior or posterior wounds and this regenerative blastema polarity is controlled by Wnt/β-catenin signaling. It is well known that a regeneration blastema of appendages of vertebrates such as fish and amphibians grows distally. However, it remains unclear whether a regeneration blastema in vertebrate appendages can grow proximally. Here, we show that a regeneration blastema in zebrafish fins can grow proximally along the proximodistal axis by calcineurin inhibition. We used fin excavation in adult zebrafish to observe unidirectional regeneration from the anterior cut edge (ACE) to the posterior cut edge (PCE) of the cavity and this unidirectional regeneration polarity occurs as the PCE fails to build blastemas. Furthermore, we found that calcineurin activities in the ACE were greater than in the PCE. Calcineurin inhibition induced PCE blastemas, and calcineurin hyperactivation suppressed fin regeneration. Collectively, these findings identify calcineurin as a molecular switch to specify the PCE blastema of the proximodistal axis and regeneration polarity in zebrafish fin.
doi_str_mv	10.1073/pnas.2009539118
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It is well known that a regeneration blastema of appendages of vertebrates such as fish and amphibians grows distally. However, it remains unclear whether a regeneration blastema in vertebrate appendages can grow proximally. Here, we show that a regeneration blastema in zebrafish fins can grow proximally along the proximodistal axis by calcineurin inhibition. We used fin excavation in adult zebrafish to observe unidirectional regeneration from the anterior cut edge (ACE) to the posterior cut edge (PCE) of the cavity and this unidirectional regeneration polarity occurs as the PCE fails to build blastemas. Furthermore, we found that calcineurin activities in the ACE were greater than in the PCE. Calcineurin inhibition induced PCE blastemas, and calcineurin hyperactivation suppressed fin regeneration. 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subjects	Amphibians Animal Fins - physiology Animals Appendages Biological Sciences Calcineurin Calcineurin - metabolism Cell Polarity - physiology Danio rerio Excavation Extremities - physiology Fins Flatworms Molecular machines Polarity Regeneration Regeneration - physiology Signal Transduction Vertebrates Wnt protein Wound Healing - physiology Zebrafish Zebrafish - metabolism Zebrafish Proteins β-Catenin
title	Calcineurin controls proximodistal blastema polarity in zebrafish fin regeneration
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