A small noncoding RNA links ribosome recovery and translation control to dedifferentiation during salamander limb regeneration
A small noncoding RNA links ribosome recovery and translation control to dedifferentiation during salamander limb regeneration
Date
2023-03-08
Authors
Subramanian, Elaiyaraja
Elewa, Ahmed
Brito, Gonçalo
Kumar, Anoop
Segerstolpe, Åsa
Karampelias, Christos
Björklund, Åsa
Sandberg, Rickard
Echeverri, Karen
Lui, Weng-Onn
Andersson, Olov
Simon, András
Elewa, Ahmed
Brito, Gonçalo
Kumar, Anoop
Segerstolpe, Åsa
Karampelias, Christos
Björklund, Åsa
Sandberg, Rickard
Echeverri, Karen
Lui, Weng-Onn
Andersson, Olov
Simon, András
Linked Authors
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DOI
10.1016/j.devcel.2023.02.007
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Keywords
Stem cells
Cell state
Newt
Muscle
Blastema
miRNA
Cell state
Newt
Muscle
Blastema
miRNA
Abstract
Building a blastema from the stump is a key step of salamander limb regeneration. Stump-derived cells temporarily suspend their identity as they contribute to the blastema by a process generally referred to as dedifferentiation. Here, we provide evidence for a mechanism that involves an active inhibition of protein synthesis during blastema formation and growth. Relieving this inhibition results in a higher number of cycling cells and enhances the pace of limb regeneration. By small RNA profiling and fate mapping of skeletal muscle progeny as a cellular model for dedifferentiation, we find that the downregulation of miR-10b-5p is critical for rebooting the translation machinery. miR-10b-5p targets ribosomal mRNAs, and its artificial upregulation causes decreased blastema cell proliferation, reduction in transcripts that encode ribosomal subunits, diminished nascent protein synthesis, and retardation of limb regeneration. Taken together, our data identify a link between miRNA regulation, ribosome biogenesis, and protein synthesis during newt limb regeneration.
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© The Author(s), 2023. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Subramanian, E., Elewa, A., Brito, G., Kumar, A., Segerstolpe, Å., Karampelias, C., Björklund, Å., Sandberg, R., Echeverri, K., Lui, W.-O., Andersson, O., & Simon, A. A small noncoding RNA links ribosome recovery and translation control to dedifferentiation during salamander limb regeneration. Developmental Cell, 58(6), (2023): 450-460.e6, https://doi.org/10.1016/j.devcel.2023.02.007.
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Subramanian, E., Elewa, A., Brito, G., Kumar, A., Segerstolpe, Å., Karampelias, C., Björklund, Å., Sandberg, R., Echeverri, K., Lui, W.-O., Andersson, O., & Simon, A. (2023). A small noncoding RNA links ribosome recovery and translation control to dedifferentiation during salamander limb regeneration. Developmental Cell, 58(6), 450-460.e6.