The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.

The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.

The molecular chaperone Hsp90 has been found to be essential for viability in all tested eukaryotes, from the budding yeast to Drosophila. In mammals, two genes encode the two highly similar and functionally largely redundant isoforms Hsp90α and Hsp90β. Although they are co-expressed in most if not...

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Main Authors: Iwona Grad, Christopher R Cederroth, Joël Walicki, Corinne Grey, Sofia Barluenga, Nicolas Winssinger, Bernard De Massy, Serge Nef, Didier Picard
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-12-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21209834/pdf/?tool=EBI
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spelling doaj-836812fa0d124d6db04b74b6dee9071a2021-03-04T02:09:54ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-12-01512e1577010.1371/journal.pone.0015770The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.Iwona GradChristopher R CederrothJoël WalickiCorinne GreySofia BarluengaNicolas WinssingerBernard De MassySerge NefDidier PicardThe molecular chaperone Hsp90 has been found to be essential for viability in all tested eukaryotes, from the budding yeast to Drosophila. In mammals, two genes encode the two highly similar and functionally largely redundant isoforms Hsp90α and Hsp90β. Although they are co-expressed in most if not all cells, their relative levels vary between tissues and during development. Since mouse embryos lacking Hsp90β die at implantation, and despite the fact that Hsp90 inhibitors being tested as anti-cancer agents are relatively well tolerated, the organismic functions of Hsp90 in mammals remain largely unknown. We have generated mouse lines carrying gene trap insertions in the Hsp90α gene to investigate the global functions of this isoform. Surprisingly, mice without Hsp90α are apparently normal, with one major exception. Mutant male mice, whose Hsp90β levels are unchanged, are sterile because of a complete failure to produce sperm. While the development of the male reproductive system appears to be normal, spermatogenesis arrests specifically at the pachytene stage of meiosis I. Over time, the number of spermatocytes and the levels of the meiotic regulators and Hsp90 interactors Hsp70-2, NASP and Cdc2 are reduced. We speculate that Hsp90α may be required to maintain and to activate these regulators and/or to disassemble the synaptonemal complex that holds homologous chromosomes together. The link between fertility and Hsp90 is further supported by our finding that an Hsp90 inhibitor that can cross the blood-testis barrier can partially phenocopy the genetic defects.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21209834/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Iwona Grad
Christopher R Cederroth
Joël Walicki
Corinne Grey
Sofia Barluenga
Nicolas Winssinger
Bernard De Massy
Serge Nef
Didier Picard
spellingShingle Iwona Grad
Christopher R Cederroth
Joël Walicki
Corinne Grey
Sofia Barluenga
Nicolas Winssinger
Bernard De Massy
Serge Nef
Didier Picard
The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.
PLoS ONE
author_facet Iwona Grad
Christopher R Cederroth
Joël Walicki
Corinne Grey
Sofia Barluenga
Nicolas Winssinger
Bernard De Massy
Serge Nef
Didier Picard
author_sort Iwona Grad
title The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.
title_short The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.
title_full The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.
title_fullStr The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.
title_full_unstemmed The molecular chaperone Hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.
title_sort molecular chaperone hsp90α is required for meiotic progression of spermatocytes beyond pachytene in the mouse.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2010-12-01
description The molecular chaperone Hsp90 has been found to be essential for viability in all tested eukaryotes, from the budding yeast to Drosophila. In mammals, two genes encode the two highly similar and functionally largely redundant isoforms Hsp90α and Hsp90β. Although they are co-expressed in most if not all cells, their relative levels vary between tissues and during development. Since mouse embryos lacking Hsp90β die at implantation, and despite the fact that Hsp90 inhibitors being tested as anti-cancer agents are relatively well tolerated, the organismic functions of Hsp90 in mammals remain largely unknown. We have generated mouse lines carrying gene trap insertions in the Hsp90α gene to investigate the global functions of this isoform. Surprisingly, mice without Hsp90α are apparently normal, with one major exception. Mutant male mice, whose Hsp90β levels are unchanged, are sterile because of a complete failure to produce sperm. While the development of the male reproductive system appears to be normal, spermatogenesis arrests specifically at the pachytene stage of meiosis I. Over time, the number of spermatocytes and the levels of the meiotic regulators and Hsp90 interactors Hsp70-2, NASP and Cdc2 are reduced. We speculate that Hsp90α may be required to maintain and to activate these regulators and/or to disassemble the synaptonemal complex that holds homologous chromosomes together. The link between fertility and Hsp90 is further supported by our finding that an Hsp90 inhibitor that can cross the blood-testis barrier can partially phenocopy the genetic defects.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21209834/pdf/?tool=EBI
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