Ion channel signaling influences cellular proliferation and phagocyte activity during axolotl tail regeneration.
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Abstract | :
Little is known about the potential for ion channels to regulate cellular behaviors during tissue regeneration. Here, we utilized an amphibian tail regeneration assay coupled with a chemical genetic screen to identify ion channel antagonists that altered critical cellular processes during regeneration. Inhibition of multiple ion channels either partially (anoctamin1/Tmem16a, anoctamin2/Tmem16b, K2.1, K2.2, L-type Ca channels and H/K ATPases) or completely (GlyR, GABAR, K1.5 and SERCA pumps) inhibited tail regeneration. Partial inhibition of tail regeneration by blocking the calcium activated chloride channels, anoctamin1&2, was associated with a reduction of cellular proliferation in tail muscle and mesenchymal regions. Inhibition of anoctamin 1/2 also altered the post-amputation transcriptional response of p44/42 MAPK signaling pathway genes, including decreased expression of erk1/erk2. We also found that complete inhibition via voltage gated K channel blockade was associated with diminished phagocyte recruitment to the amputation site. The identification of H pumps as required for axolotl tail regeneration supports findings in Xenopus and Planaria models, and more generally, the conservation of ion channels as regulators of tissue regeneration. This study provides a preliminary framework for an in-depth investigation of the mechanistic role of ion channels and their potential involvement in regulating cellular proliferation and other processes essential to wound healing, appendage regeneration, and tissue repair. |
Year of Publication | :
2017
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Journal | :
Mechanisms of development
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Volume | :
146
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Number of Pages | :
42-54
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ISSN Number | :
0925-4773
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URL | :
https://linkinghub.elsevier.com/retrieve/pii/S0925-4773(17)30083-7
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DOI | :
10.1016/j.mod.2017.06.001
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Short Title | :
Mech Dev
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