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Literature DB >> 33882291

Planarian stem cells specify fate yet retain potency during the cell cycle.

Amelie A Raz¹, Omri Wurtzel², Peter W Reddien³.

Abstract

Planarian whole-body regeneration is enabled by stem cells called neoblasts. At least some neoblasts are individually pluripotent. Neoblasts are also heterogeneous, with subpopulations of specialized neoblasts having different specified fates. Fate specification in neoblasts is regulated by fate-specific transcription factor (FSTF) expression. Here, we find that FSTF expression is common in neoblast S/G2/M cell-cycle phases but less common in G1. We find that specialized neoblasts can divide to produce progeny with asymmetric cell fates, suggesting that they could retain pluripotency. Furthermore, no known neoblast class was present in all neoblast colonies, suggesting that pluripotency is not the exclusive property of any known class. We tested this possibility with single-cell transplantations, which indicate that at least some specialized neoblasts are likely clonogenic. On the basis of these findings, we propose a model for neoblast pluripotency in which neoblasts can undergo specialization during the cell cycle without loss of potency.

Entities: Chemical

Keywords: cell cycle; cell fate; neoblasts; planarians; potency; regeneration; stem cells

Mesh：

Year: 2021 PMID： 33882291 PMCID： PMC8254784 DOI： 10.1016/j.stem.2021.03.021

Source DB: PubMed Journal: Cell Stem Cell ISSN： 1875-9777 Impact factor: 25.269

76 in total

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Review 5. Model systems for regeneration: planarians.

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Journal: Development Date: 2019-09-11 Impact factor: 6.868

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3. Planarian stem cells sense the identity of the missing pharynx to launch its targeted regeneration.

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4. Restoration of DNA integrity and the cell cycle by electric stimulation in planarian tissues damaged by ionizing radiation.

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