The Lin28/let-7 Pathway Regulates the Mammalian Caudal Body Axis Elongation Program

Daisy A. Robinton; Jérome Chal; Edroaldo Lummertz da Rocha; Areum Han; Alena V. Yermalovich; Masayuki Oginuma; Thorsten M. Schlaeger; Patricia Sousa; Antony Rodriguez; Achia Urbach; Olivier Pourquié; George Q. Daley

doi:10.1016/j.devcel.2018.12.016

The Lin28/let-7 Pathway Regulates the Mammalian Caudal Body Axis Elongation Program

Daisy A. Robinton, Jérome Chal, Edroaldo Lummertz da Rocha, Areum Han, Alena V. Yermalovich, Masayuki Oginuma, Thorsten M. Schlaeger, Patricia Sousa, Antony Rodriguez, Achia Urbach, Olivier Pourquié, George Q. Daley

The Mina and Everard Goodman Faculty of Life Sciences - at Bar-Ilan University

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

The heterochronic genes Lin28a/b and let-7 regulate invertebrate development, but their functions in patterning the mammalian body plan remain unexplored. Here, we describe how Lin28/let-7 influence caudal vertebrae number during body axis formation. We found that FoxD1-driven overexpression of Lin28a strikingly increased caudal vertebrae number and tail bud cell proliferation, whereas its knockout did the opposite. Lin28a overexpression downregulated the neural marker Sox2, causing a pro-mesodermal phenotype with a decreased proportion of neural tissue relative to nascent mesoderm. Manipulating Lin28a and let-7 led to opposite effects, and manipulating Lin28a's paralog, LIN28B caused similar yet distinct phenotypes. These findings suggest that Lin28/let-7 play a role in the regulation of tail length through heterochrony of the body plan. We propose that the Lin28/let-7 pathway controls the pool of caudal progenitors during tail development, promoting their self-renewal and balancing neural versus mesodermal cell fate decisions.

Original language	English
Pages (from-to)	396-405.e3
Journal	Developmental Cell
Volume	48
Issue number	3
DOIs	https://doi.org/10.1016/j.devcel.2018.12.016
State	Published - 11 Feb 2019

Keywords

Lin28
Sox2
body axis elongation
body plan
cell fate
development
heterochrony
let-7 miRNA
somitogenesis
tail bud

All Science Journal Classification (ASJC) codes

Molecular Biology
General Biochemistry,Genetics and Molecular Biology
Developmental Biology
Cell Biology

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10.1016/j.devcel.2018.12.016

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title = "The Lin28/let-7 Pathway Regulates the Mammalian Caudal Body Axis Elongation Program",

abstract = "The heterochronic genes Lin28a/b and let-7 regulate invertebrate development, but their functions in patterning the mammalian body plan remain unexplored. Here, we describe how Lin28/let-7 influence caudal vertebrae number during body axis formation. We found that FoxD1-driven overexpression of Lin28a strikingly increased caudal vertebrae number and tail bud cell proliferation, whereas its knockout did the opposite. Lin28a overexpression downregulated the neural marker Sox2, causing a pro-mesodermal phenotype with a decreased proportion of neural tissue relative to nascent mesoderm. Manipulating Lin28a and let-7 led to opposite effects, and manipulating Lin28a's paralog, LIN28B caused similar yet distinct phenotypes. These findings suggest that Lin28/let-7 play a role in the regulation of tail length through heterochrony of the body plan. We propose that the Lin28/let-7 pathway controls the pool of caudal progenitors during tail development, promoting their self-renewal and balancing neural versus mesodermal cell fate decisions.",

keywords = "Lin28, Sox2, body axis elongation, body plan, cell fate, development, heterochrony, let-7 miRNA, somitogenesis, tail bud",

author = "Robinton, {Daisy A.} and J{\'e}rome Chal and {Lummertz da Rocha}, Edroaldo and Areum Han and Yermalovich, {Alena V.} and Masayuki Oginuma and Schlaeger, {Thorsten M.} and Patricia Sousa and Antony Rodriguez and Achia Urbach and Olivier Pourqui{\'e} and Daley, {George Q.}",

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doi = "10.1016/j.devcel.2018.12.016",

language = "الإنجليزيّة",

volume = "48",

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T1 - The Lin28/let-7 Pathway Regulates the Mammalian Caudal Body Axis Elongation Program

AU - Robinton, Daisy A.

AU - Chal, Jérome

AU - Lummertz da Rocha, Edroaldo

AU - Han, Areum

AU - Yermalovich, Alena V.

AU - Oginuma, Masayuki

AU - Schlaeger, Thorsten M.

AU - Sousa, Patricia

AU - Rodriguez, Antony

AU - Urbach, Achia

AU - Pourquié, Olivier

AU - Daley, George Q.

PY - 2019/2/11

Y1 - 2019/2/11

N2 - The heterochronic genes Lin28a/b and let-7 regulate invertebrate development, but their functions in patterning the mammalian body plan remain unexplored. Here, we describe how Lin28/let-7 influence caudal vertebrae number during body axis formation. We found that FoxD1-driven overexpression of Lin28a strikingly increased caudal vertebrae number and tail bud cell proliferation, whereas its knockout did the opposite. Lin28a overexpression downregulated the neural marker Sox2, causing a pro-mesodermal phenotype with a decreased proportion of neural tissue relative to nascent mesoderm. Manipulating Lin28a and let-7 led to opposite effects, and manipulating Lin28a's paralog, LIN28B caused similar yet distinct phenotypes. These findings suggest that Lin28/let-7 play a role in the regulation of tail length through heterochrony of the body plan. We propose that the Lin28/let-7 pathway controls the pool of caudal progenitors during tail development, promoting their self-renewal and balancing neural versus mesodermal cell fate decisions.

AB - The heterochronic genes Lin28a/b and let-7 regulate invertebrate development, but their functions in patterning the mammalian body plan remain unexplored. Here, we describe how Lin28/let-7 influence caudal vertebrae number during body axis formation. We found that FoxD1-driven overexpression of Lin28a strikingly increased caudal vertebrae number and tail bud cell proliferation, whereas its knockout did the opposite. Lin28a overexpression downregulated the neural marker Sox2, causing a pro-mesodermal phenotype with a decreased proportion of neural tissue relative to nascent mesoderm. Manipulating Lin28a and let-7 led to opposite effects, and manipulating Lin28a's paralog, LIN28B caused similar yet distinct phenotypes. These findings suggest that Lin28/let-7 play a role in the regulation of tail length through heterochrony of the body plan. We propose that the Lin28/let-7 pathway controls the pool of caudal progenitors during tail development, promoting their self-renewal and balancing neural versus mesodermal cell fate decisions.

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The Lin28/let-7 Pathway Regulates the Mammalian Caudal Body Axis Elongation Program

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Keywords

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