The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.

The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.

Proliferation is one of the basic processes that control embryogenesis. To identify factors involved in the regulation of proliferation, we performed a zebrafish genetic screen in which we used proliferating cell nuclear antigen (PCNA) expression as a readout. Two mutants, hu418B and hu540A, show in...

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Main Authors: Marco J Koudijs, Marjo J den Broeder, Astrid Keijser, Erno Wienholds, Saskia Houwing, Ellen M H C van Rooijen, Robert Geisler, Fredericus J M van Eeden
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2005-08-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC1189072?pdf=render
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spelling doaj-8bd3adef8eab45dd81adedcc6ae2fdbb2020-11-24T21:47:52ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042005-08-0112e1910.1371/journal.pgen.0010019The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.Marco J KoudijsMarjo J den BroederAstrid KeijserErno WienholdsSaskia HouwingEllen M H C van RooijenRobert GeislerFredericus J M van EedenProliferation is one of the basic processes that control embryogenesis. To identify factors involved in the regulation of proliferation, we performed a zebrafish genetic screen in which we used proliferating cell nuclear antigen (PCNA) expression as a readout. Two mutants, hu418B and hu540A, show increased PCNA expression. Morphologically both mutants resembled the dre (dreumes), uki (ukkie), and lep (leprechaun) mutant class and both are shown to be additional uki alleles. Surprisingly, although an increased size is detected of multiple structures in these mutant embryos, adults become dwarfs. We show that these mutations disrupt repressors of the Hedgehog (Hh) signaling pathway. The dre, uki, and lep loci encode Su(fu) (suppressor of fused), Hip (Hedgehog interacting protein), and Ptc2 (Patched2) proteins, respectively. This class of mutants is therefore unique compared to previously described Hh mutants from zebrafish genetic screens, which mainly show loss of Hh signaling. Furthermore, su(fu) and ptc2 mutants have not been described in vertebrate model systems before. Inhibiting Hh activity by cyclopamine rescues uki and lep mutants and confirms the overactivation of the Hh signaling pathway in these mutants. Triple uki/dre/lep mutants show neither an additive increase in PCNA expression nor enhanced embryonic phenotypes, suggesting that other negative regulators, possibly Ptc1, prevent further activation of the Hh signaling pathway. The effects of increased Hh signaling resulting from the genetic alterations in the uki, dre, and lep mutants differ from phenotypes described as a result of Hh overexpression and therefore provide additional insight into the role of Hh signaling during vertebrate development.http://europepmc.org/articles/PMC1189072?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Marco J Koudijs
Marjo J den Broeder
Astrid Keijser
Erno Wienholds
Saskia Houwing
Ellen M H C van Rooijen
Robert Geisler
Fredericus J M van Eeden
spellingShingle Marco J Koudijs
Marjo J den Broeder
Astrid Keijser
Erno Wienholds
Saskia Houwing
Ellen M H C van Rooijen
Robert Geisler
Fredericus J M van Eeden
The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.
PLoS Genetics
author_facet Marco J Koudijs
Marjo J den Broeder
Astrid Keijser
Erno Wienholds
Saskia Houwing
Ellen M H C van Rooijen
Robert Geisler
Fredericus J M van Eeden
author_sort Marco J Koudijs
title The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.
title_short The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.
title_full The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.
title_fullStr The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.
title_full_unstemmed The zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.
title_sort zebrafish mutants dre, uki, and lep encode negative regulators of the hedgehog signaling pathway.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2005-08-01
description Proliferation is one of the basic processes that control embryogenesis. To identify factors involved in the regulation of proliferation, we performed a zebrafish genetic screen in which we used proliferating cell nuclear antigen (PCNA) expression as a readout. Two mutants, hu418B and hu540A, show increased PCNA expression. Morphologically both mutants resembled the dre (dreumes), uki (ukkie), and lep (leprechaun) mutant class and both are shown to be additional uki alleles. Surprisingly, although an increased size is detected of multiple structures in these mutant embryos, adults become dwarfs. We show that these mutations disrupt repressors of the Hedgehog (Hh) signaling pathway. The dre, uki, and lep loci encode Su(fu) (suppressor of fused), Hip (Hedgehog interacting protein), and Ptc2 (Patched2) proteins, respectively. This class of mutants is therefore unique compared to previously described Hh mutants from zebrafish genetic screens, which mainly show loss of Hh signaling. Furthermore, su(fu) and ptc2 mutants have not been described in vertebrate model systems before. Inhibiting Hh activity by cyclopamine rescues uki and lep mutants and confirms the overactivation of the Hh signaling pathway in these mutants. Triple uki/dre/lep mutants show neither an additive increase in PCNA expression nor enhanced embryonic phenotypes, suggesting that other negative regulators, possibly Ptc1, prevent further activation of the Hh signaling pathway. The effects of increased Hh signaling resulting from the genetic alterations in the uki, dre, and lep mutants differ from phenotypes described as a result of Hh overexpression and therefore provide additional insight into the role of Hh signaling during vertebrate development.
url http://europepmc.org/articles/PMC1189072?pdf=render
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