Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.

Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.

Mammary gland development starts in utero with one or several pairs of mammary rudiments (MRs) budding from the surface ectodermal component of the mammalian embryonic skin. Mice develop five pairs, numbered MR1 to MR5 from pectoral to inguinal position. We have previously shown that Gli3(Xt-J/Xt-J)...

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Main Authors: May Yin Lee, Victor Racine, Peter Jagadpramana, Li Sun, Weimiao Yu, Tiehua Du, Bradley Spencer-Dene, Nicole Rubin, Lendy Le, Delphine Ndiaye, Saverio Bellusci, Klaus Kratochwil, Jacqueline M Veltmaat
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3203106?pdf=render
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spelling doaj-cf683fb6f14542ad9c8c1c00980b962f2020-11-24T21:26:37ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-01610e2624210.1371/journal.pone.0026242Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.May Yin LeeVictor RacinePeter JagadpramanaLi SunWeimiao YuTiehua DuBradley Spencer-DeneNicole RubinLendy LeDelphine NdiayeSaverio BellusciKlaus KratochwilJacqueline M VeltmaatMammary gland development starts in utero with one or several pairs of mammary rudiments (MRs) budding from the surface ectodermal component of the mammalian embryonic skin. Mice develop five pairs, numbered MR1 to MR5 from pectoral to inguinal position. We have previously shown that Gli3(Xt-J/Xt-J) mutant embryos, which lack the transcription factor Gli3, do not form MR3 and MR5. We show here that two days after the MRs emerge, Gli3(Xt-J/Xt-J) MR1 is 20% smaller, and Gli3(Xt-J/Xt-J) MR2 and MR4 are 50% smaller than their wild type (wt) counterparts. Moreover, while wt MRs sink into the underlying dermis, Gli3(Xt-J/Xt-J) MR4 and MR2 protrude outwardly, to different extents. To understand why each of these five pairs of functionally identical organs has its own, distinct response to the absence of Gli3, we determined which cellular mechanisms regulate growth of the individual MRs, and whether and how Gli3 regulates these mechanisms. We found a 5.5 to 10.7-fold lower cell proliferation rate in wt MRs compared to their adjacent surface ectoderm, indicating that MRs do not emerge or grow via locally enhanced cell proliferation. Cell-tracing experiments showed that surface ectodermal cells are recruited toward the positions where MRs emerge, and contribute to MR growth during at least two days. During the second day of MR development, peripheral cells within the MRs undergo hypertrophy, which also contributes to MR growth. Limited apoptotic cell death counterbalances MR growth. The relative contribution of each of these processes varies among the five MRs. Furthermore, each of these processes is impaired in the absence of Gli3, but to different extents in each MR. This differential involvement of Gli3 explains the variation in phenotype among Gli3(Xt-J/Xt-J) MRs, and may help to understand the variation in numbers and positions of mammary glands among mammals.http://europepmc.org/articles/PMC3203106?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author May Yin Lee
Victor Racine
Peter Jagadpramana
Li Sun
Weimiao Yu
Tiehua Du
Bradley Spencer-Dene
Nicole Rubin
Lendy Le
Delphine Ndiaye
Saverio Bellusci
Klaus Kratochwil
Jacqueline M Veltmaat
spellingShingle May Yin Lee
Victor Racine
Peter Jagadpramana
Li Sun
Weimiao Yu
Tiehua Du
Bradley Spencer-Dene
Nicole Rubin
Lendy Le
Delphine Ndiaye
Saverio Bellusci
Klaus Kratochwil
Jacqueline M Veltmaat
Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.
PLoS ONE
author_facet May Yin Lee
Victor Racine
Peter Jagadpramana
Li Sun
Weimiao Yu
Tiehua Du
Bradley Spencer-Dene
Nicole Rubin
Lendy Le
Delphine Ndiaye
Saverio Bellusci
Klaus Kratochwil
Jacqueline M Veltmaat
author_sort May Yin Lee
title Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.
title_short Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.
title_full Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.
title_fullStr Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.
title_full_unstemmed Ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by Gli3.
title_sort ectodermal influx and cell hypertrophy provide early growth for all murine mammary rudiments, and are differentially regulated among them by gli3.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Mammary gland development starts in utero with one or several pairs of mammary rudiments (MRs) budding from the surface ectodermal component of the mammalian embryonic skin. Mice develop five pairs, numbered MR1 to MR5 from pectoral to inguinal position. We have previously shown that Gli3(Xt-J/Xt-J) mutant embryos, which lack the transcription factor Gli3, do not form MR3 and MR5. We show here that two days after the MRs emerge, Gli3(Xt-J/Xt-J) MR1 is 20% smaller, and Gli3(Xt-J/Xt-J) MR2 and MR4 are 50% smaller than their wild type (wt) counterparts. Moreover, while wt MRs sink into the underlying dermis, Gli3(Xt-J/Xt-J) MR4 and MR2 protrude outwardly, to different extents. To understand why each of these five pairs of functionally identical organs has its own, distinct response to the absence of Gli3, we determined which cellular mechanisms regulate growth of the individual MRs, and whether and how Gli3 regulates these mechanisms. We found a 5.5 to 10.7-fold lower cell proliferation rate in wt MRs compared to their adjacent surface ectoderm, indicating that MRs do not emerge or grow via locally enhanced cell proliferation. Cell-tracing experiments showed that surface ectodermal cells are recruited toward the positions where MRs emerge, and contribute to MR growth during at least two days. During the second day of MR development, peripheral cells within the MRs undergo hypertrophy, which also contributes to MR growth. Limited apoptotic cell death counterbalances MR growth. The relative contribution of each of these processes varies among the five MRs. Furthermore, each of these processes is impaired in the absence of Gli3, but to different extents in each MR. This differential involvement of Gli3 explains the variation in phenotype among Gli3(Xt-J/Xt-J) MRs, and may help to understand the variation in numbers and positions of mammary glands among mammals.
url http://europepmc.org/articles/PMC3203106?pdf=render
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