The PGD2 pathway, independently of FGF9, amplifies SOX9 activity in Sertoli cells during male sexual differentiation
Author:
Moniot Brigitte1, Declosmenil Faustine1, Barrionuevo Francisco2, Scherer Gerd2, Aritake Kosuke3, Malki Safia1, Marzi Laetitia1, Cohen-Solal Anne4, Georg Ina2, Klattig Jürgen5, Englert Christoph5, Kim Yuna6, Capel Blanche6, Eguchi Naomi3, Urade Yoshihiro3, Boizet-Bonhoure Brigitte1, Poulat Francis1
Affiliation:
1. Department of Genetics and Development, Institut de Génétique Humaine CNRS UPR1142, 34396 Montpellier, Cedex5, France. 2. Institute of Human Genetics and Anthropology, University of Freiburg,Germany. 3. Osaka Bioscience Institute, 565-0874 Osaka, Japan. 4. Institut de Génomique Fonctionnelle CNRS UMR5203, Montpellier,France. 5. Leibniz Institute for Age Research, Fritz Lipmann Institute, 07745 Jena,Germany. 6. Duke University Medical Center, Durham, NC 27710, USA.
Abstract
Activation by the Y-encoded testis determining factor SRY and maintenance of expression of the Sox9 gene encoding the central transcription factor of Sertoli cell differentiation are key events in the mammalian sexual differentiation program. In the mouse XY gonad, SOX9 upregulates Fgf9, which initiates a Sox9/Fgf9 feedforward loop,and Sox9 expression is stimulated by the prostaglandin D2 (PGD2)producing lipocalin prostaglandin D synthase (L-PGDS, or PTDGS) enzyme, which accelerates commitment to the male pathway. In an attempt to decipher the genetic relationships between Sox9 and the L-Pgds/PGD2 pathway during mouse testicular organogenesis,we found that ablation of Sox9 at the onset or during the time window of expression in embryonic Sertoli cells abolished L-Pgdstranscription. By contrast, L-Pgds-/- XY embryonic gonads displayed a reduced level of Sox9 transcript and aberrant SOX9 protein subcellular localization. In this study, we demonstrated genetically that the L-Pgds/PGD2 pathway acts as a second amplification loop of Sox9 expression. Moreover, examination of Fgf9-/- and L-Pgds-/- XY embryonic gonads demonstrated that the two Sox9 gene activity amplifying pathways work independently. These data suggest that, once activated and maintained by SOX9, production of testicular L-PGDS leads to the accumulation of PGD2, which in turn activates Sox9 transcription and nuclear translocation of SOX9. This mechanism participates together with FGF9 as an amplification system of Sox9 gene expression and activity during mammalian testicular organogenesis.
Publisher
The Company of Biologists
Subject
Developmental Biology,Molecular Biology
Reference37 articles.
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