The murine winged-helix transcription factor Foxl2 is required for granulosa cell differentiation and ovary maintenance

doi:10.1242/dev.00969

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First published online 21 January 2004
doi: 10.1242/dev.00969

Development 131, 933-942 (2004)
Published by The Company of Biologists 2004

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The murine winged-helix transcription factor Foxl2 is required for granulosa cell differentiation and ovary maintenance

Dirk Schmidt^*, Catherine E. Ovitt^*^,, Katrin Anlag, Sandra Fehsenfeld, Lars Gredsted, Anna-Corina Treier and Mathias Treier

Developmental Biology Programme, European Molecular Biology Laboratory, Meyerhofstrasse 1, 69117 Heidelberg, Germany

Author for correspondence (e-mail: treier{at}embl.de)

Accepted 5 November 2003

Human Blepharophimosis/ptosis/epicanthus inversus syndrome (BPES)type I is an autosomal dominant disorder associated with prematureovarian failure (POF) caused by mutations in FOXL2, a winged-helix/forkheaddomain transcription factor. Although it has been shown thatFOXL2 is expressed in adult ovaries, its function during folliculogenesisis not known. Here, we show that the murine Foxl2 gene is essentialfor granulosa cell differentiation and ovary maintenance. In Foxl2^lacZhomozygous mutant ovaries granulosa cells do not complete thesquamous to cuboidal transition leading to the absence of secondaryfollicles and oocyte atresia. We further demonstrate that activin-ßAand anti-Mullerian inhibiting hormone expression is absent or stronglydiminished in Foxl2^lacZ homozygous mutant ovaries. Unexpectedly,two weeks after birth most if not all oocytes expressed Gdf9in Foxl2^lacZ homozygous mutant ovaries, indicating that nearlyall primordial follicles have already initiated folliculogenesisat this stage. This activation, in the absence of functionalgranulosa cells, leads to oocyte atresia and progressive follicular depletion.In addition to providing a molecular mechanism for premature ovarianfailure in BPES, these results suggest that granulosa cell functionis not only crucial for oocyte growth but also to maintain follicularquiescence in vivo.

Key words: Transcription factor, Forkhead, Winged-helix, Folliculogenesis, Premature ovarian failure

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				G. Meduri, A. Bachelot, C. Duflos, B. Bstandig, C. Poirot, C. Genestie, R. Veitia, E. De Baere, and P. Touraine FOXL2 mutations lead to different ovarian phenotypes in BPES patients: Case Report Hum. Reprod., October 9, 2009; (2009) dep355v1. [Abstract] [Full Text] [PDF]

				M. A. Edson, A. K. Nagaraja, and M. M. Matzuk The Mammalian Ovary from Genesis to Revelation Endocr. Rev., October 1, 2009; 30(6): 624 - 712. [Abstract] [Full Text] [PDF]

				A. Dipietromaria, B. A. Benayoun, A.-L. Todeschini, I. Rivals, C. Bazin, and R. A. Veitia Towards a functional classification of pathogenic FOXL2 mutations using transactivation reporter systems Hum. Mol. Genet., September 1, 2009; 18(17): 3324 - 3333. [Abstract] [Full Text] [PDF]

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				F. J. Broekmans, M. R. Soules, and B. C. Fauser Ovarian Aging: Mechanisms and Clinical Consequences Endocr. Rev., August 1, 2009; 30(5): 465 - 493. [Abstract] [Full Text] [PDF]

				N. Lei, T. Karpova, K. I. Hornbaker, D. A. Rice, and L. L. Heckert Distinct Transcriptional Mechanisms Direct Expression of the Rat Dmrt1 Promoter in Sertoli Cells and Germ Cells of Transgenic Mice Biol Reprod, July 1, 2009; 81(1): 118 - 125. [Abstract] [Full Text] [PDF]

				S. P. Shah, M. Kobel, J. Senz, R. D. Morin, B. A. Clarke, K. C. Wiegand, G. Leung, A. Zayed, E. Mehl, S. E. Kalloger, et al. Mutation of FOXL2 in Granulosa-Cell Tumors of the Ovary N. Engl. J. Med., June 25, 2009; 360(26): 2719 - 2729. [Abstract] [Full Text] [PDF]

				A. L. Blount, K. Schmidt, N. J. Justice, W. W. Vale, W. H. Fischer, and L. M. Bilezikjian FoxL2 and Smad3 Coordinately Regulate Follistatin Gene Transcription J. Biol. Chem., March 20, 2009; 284(12): 7631 - 7645. [Abstract] [Full Text] [PDF]

				B. A. Benayoun, F. Batista, J. Auer, A. Dipietromaria, D. L'Hote, E. De Baere, and R. A. Veitia Positive and negative feedback regulates the transcription factor FOXL2 in response to cell stress: evidence for a regulatory imbalance induced by disease-causing mutations Hum. Mol. Genet., February 15, 2009; 18(4): 632 - 644. [Abstract] [Full Text] [PDF]

				D. J. Trombly, T. K. Woodruff, and K. E. Mayo Suppression of Notch Signaling in the Neonatal Mouse Ovary Decreases Primordial Follicle Formation Endocrinology, February 1, 2009; 150(2): 1014 - 1024. [Abstract] [Full Text] [PDF]

				R. Hiramatsu, S. Matoba, M. Kanai-Azuma, N. Tsunekawa, Y. Katoh-Fukui, M. Kurohmaru, K.-i. Morohashi, D. Wilhelm, P. Koopman, and Y. Kanai A critical time window of Sry action in gonadal sex determination in mice Development, January 1, 2009; 136(1): 129 - 138. [Abstract] [Full Text] [PDF]

				G.-C. Wu, S. Tomy, M. Nakamura, and C.-F. Chang Dual Roles of cyp19a1a in Gonadal Sex Differentiation and Development in the Protandrous Black Porgy, Acanthopagrus schlegeli Biol Reprod, December 1, 2008; 79(6): 1111 - 1120. [Abstract] [Full Text] [PDF]

				N. L. Manuylov, F. O. Smagulova, L. Leach, and S. G. Tevosian Ovarian development in mice requires the GATA4-FOG2 transcription complex Development, November 15, 2008; 135(22): 3731 - 3743. [Abstract] [Full Text] [PDF]

				B. A. Benayoun, S. Caburet, A. Dipietromaria, M. Bailly-Bechet, F. Batista, M. Fellous, D. Vaiman, and R. A. Veitia The identification and characterization of a FOXL2 response element provides insights into the pathogenesis of mutant alleles Hum. Mol. Genet., October 15, 2008; 17(20): 3118 - 3127. [Abstract] [Full Text] [PDF]

				C. Andreu-Vieyra, R. Chen, and M. M. Matzuk Conditional Deletion of the Retinoblastoma (Rb) Gene in Ovarian Granulosa Cells Leads to Premature Ovarian Failure Mol. Endocrinol., September 1, 2008; 22(9): 2141 - 2161. [Abstract] [Full Text] [PDF]

				S. Otsuka, A. Konno, Y. Hashimoto, N. Sasaki, D. Endoh, and Y. Kon Oocytes in Newborn MRL Mouse Testes Biol Reprod, July 1, 2008; 79(1): 9 - 16. [Abstract] [Full Text] [PDF]

				A.-A. Chassot, F. Ranc, E. P. Gregoire, H. L. Roepers-Gajadien, M. M. Taketo, G. Camerino, D. G. de Rooij, A. Schedl, and M.-C. Chaboissier Activation of {beta}-catenin signaling by Rspo1 controls differentiation of the mammalian ovary Hum. Mol. Genet., May 1, 2008; 17(9): 1264 - 1277. [Abstract] [Full Text] [PDF]

				G. Nikolova, J. S. Sinsheimer, E. M. Eicher, and E. Vilain The Chromosome 11 Region From Strain 129 Provides Protection From Sex Reversal in XYPOS Mice Genetics, May 1, 2008; 179(1): 419 - 427. [Abstract] [Full Text] [PDF]

				L. Moumne, A. Dipietromaria, F. Batista, A. Kocer, M. Fellous, E. Pailhoux, and R. A. Veitia Differential aggregation and functional impairment induced by polyalanine expansions in FOXL2, a transcription factor involved in cranio-facial and ovarian development Hum. Mol. Genet., April 1, 2008; 17(7): 1010 - 1019. [Abstract] [Full Text] [PDF]

				C. Tatone, F. Amicarelli, M. C. Carbone, P. Monteleone, D. Caserta, R. Marci, P. G. Artini, P. Piomboni, and R. Focarelli Cellular and molecular aspects of ovarian follicle ageing Hum. Reprod. Update, March 1, 2008; 14(2): 131 - 142. [Abstract] [Full Text] [PDF]

				T. Qing, H. Liu, W. Wei, X. Ye, W. Shen, D. Zhang, Z. Song, W. Yang, M. Ding, and H. Deng Mature oocytes derived from purified mouse fetal germ cells Hum. Reprod., January 1, 2008; 23(1): 54 - 61. [Abstract] [Full Text] [PDF]

				C. Ottolenghi, E. Pelosi, J. Tran, M. Colombino, E. Douglass, T. Nedorezov, A. Cao, A. Forabosco, and D. Schlessinger Loss of Wnt4 and Foxl2 leads to female-to-male sex reversal extending to germ cells Hum. Mol. Genet., December 1, 2007; 16(23): 2795 - 2804. [Abstract] [Full Text] [PDF]

				C. M. Shoemaker, J. Queen, and D. Crews Response of Candidate Sex-Determining Genes to Changes in Temperature Reveals Their Involvement in the Molecular Network Underlying Temperature-Dependent Sex Determination Mol. Endocrinol., November 1, 2007; 21(11): 2750 - 2763. [Abstract] [Full Text] [PDF]

				D.-S. Wang, T. Kobayashi, L.-Y. Zhou, B. Paul-Prasanth, S. Ijiri, F. Sakai, K. Okubo, K.-i. Morohashi, and Y. Nagahama Foxl2 Up-Regulates Aromatase Gene Transcription in a Female-Specific Manner by Binding to the Promoter as Well as Interacting with Ad4 Binding Protein/Steroidogenic Factor 1 Mol. Endocrinol., March 1, 2007; 21(3): 712 - 725. [Abstract] [Full Text] [PDF]

				F. Batista, D. Vaiman, J. Dausset, M. Fellous, and R. A. Veitia Potential targets of FOXL2, a transcription factor involved in craniofacial and follicular development, identified by transcriptomics PNAS, February 27, 2007; 104(9): 3330 - 3335. [Abstract] [Full Text] [PDF]

				D. Wilhelm, S. Palmer, and P. Koopman Sex Determination and Gonadal Development in Mammals Physiol Rev, January 1, 2007; 87(1): 1 - 28. [Abstract] [Full Text] [PDF]

				B. S. Ellsworth, N. Egashira, J. L. Haller, D. L. Butts, J. Cocquet, C. M. Clay, R. Y. Osamura, and S. A. Camper FOXL2 in the Pituitary: Molecular, Genetic, and Developmental Analysis Mol. Endocrinol., November 1, 2006; 20(11): 2796 - 2805. [Abstract] [Full Text] [PDF]

				S. Mazaud Guittot, C. J. Guigon, N. Coudouel, and S. Magre Consequences of Fetal Irradiation on Follicle Histogenesis and Early Follicle Development in Rat Ovaries Biol Reprod, November 1, 2006; 75(5): 749 - 759. [Abstract] [Full Text] [PDF]

				U. Elling, C. Klasen, T. Eisenberger, K. Anlag, and M. Treier Murine inner cell mass-derived lineages depend on Sall4 function PNAS, October 31, 2006; 103(44): 16319 - 16324. [Abstract] [Full Text] [PDF]