RHAMM deficiency disrupts folliculogenesis resulting in female hypofertility

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Abstract

The postnatal mammalian ovary contains the primary follicles, each comprising an immature oocyte surrounded by a layer of somatic granulosa cells. Oocytes reach meiotic and developmental competence via folliculogenesis. During this process, the granulosa cells proliferate massively around the oocyte, form an extensive extracellular matrix (ECM) and differentiate into cumulus cells. As the ECM component hyaluronic acid (HA) is thought to form the backbone of the oocyte-granulosa cell complex, we deleted the relevant domain of the Receptor for HA Mediated Motility (RHAMM) gene in the mouse. This resulted in folliculogenesis defects and female hypofertility, although HA-induced signalling was not affected. We report that wild-type RHAMM localises at the mitotic spindle of granulosa cells, surrounding the oocyte. Deletion of the RHAMM C-terminus in vivo abolishes its spindle association, resulting in impaired spindle orientation in the dividing granulosa cells, folliculogenesis defects and subsequent female hypofertility. These data reveal the first identified physiological function for RHAMM, during oogenesis, and the importance of this spindle-associated function for female fertility.

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Most cited references 53

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Phenotypic profiling of the human genome by time-lapse microscopy reveals cell division genes.

Christian Conrad, Catherine Chapuis, Rolf Kabbe … (2010)

Despite our rapidly growing knowledge about the human genome, we do not know all of the genes required for some of the most basic functions of life. To start to fill this gap we developed a high-throughput phenotypic screening platform combining potent gene silencing by RNA interference, time-lapse microscopy and computational image processing. We carried out a genome-wide phenotypic profiling of each of the approximately 21,000 human protein-coding genes by two-day live imaging of fluorescently labelled chromosomes. Phenotypes were scored quantitatively by computational image processing, which allowed us to identify hundreds of human genes involved in diverse biological functions including cell division, migration and survival. As part of the Mitocheck consortium, this study provides an in-depth analysis of cell division phenotypes and makes the entire high-content data set available as a resource to the community.

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The road to maturation: somatic cell interaction and self-organization of the mammalian oocyte.

Rong Li, David F. Albertini (2013)

Mammalian oocytes go through a long and complex developmental process while acquiring the competencies that are required for fertilization and embryogenesis. Recent advances in molecular genetics and quantitative live imaging reveal new insights into the molecular basis of the communication between the oocyte and ovarian somatic cells as well as the dynamic cytoskeleton-based events that drive each step along the pathway to maturity. Whereas self-organization of microtubules and motor proteins direct meiotic spindle assembly for achieving genome reduction, actin filaments are instrumental for spindle positioning and the establishment of oocyte polarity needed for extrusion of polar bodies. Meiotic chromatin provides key instructive signals while being 'chauffeured' by both cytoskeletal systems.

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MAPK3/1 (ERK1/2) in ovarian granulosa cells are essential for female fertility.

Heng Fan, Zhilin Liu, Esta Sterneck … (2009)

A surge of luteinizing hormone (LH) from the pituitary gland triggers ovulation, oocyte maturation, and luteinization for successful reproduction in mammals. Because the signaling molecules RAS and ERK1/2 (extracellular signal-regulated kinases 1 and 2) are activated by an LH surge in granulosa cells of preovulatory follicles, we disrupted Erk1/2 in mouse granulosa cells and provide in vivo evidence that these kinases are necessary for LH-induced oocyte resumption of meiosis, ovulation, and luteinization. In addition, biochemical analyses and selected disruption of the Cebpb gene in granulosa cells demonstrate that C/EBPbeta (CCAAT/Enhancer-binding protein-beta) is a critical downstream mediator of ERK1/2 activation. Thus, ERK1/2 and C/EBPbeta constitute an in vivo LH-regulated signaling pathway that controls ovulation- and luteinization-related events.

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Author and article information

Journal

Journal ID (nlm-ta): Biol Open

Journal ID (iso-abbrev): Biol Open

Journal ID (hwp): biolopen

Journal ID (publisher-id): bio

Title: Biology Open

Publisher: The Company of Biologists (Bidder Building, 140 Cowley Road, Cambridge, CB4 0DL, UK )

ISSN (Electronic): 2046-6390

Publication date Collection: 15 April 2015

Publication date (Electronic): 6 March 2015

Volume: 4

Issue: 4

Pages: 562-571

Affiliations

[1 ]Leibniz Institute for Age Research – Fritz Lipmann Institute , Beutenbergstrasse 11, D-07745 Jena, Germany

[2 ]Forschungszentrum Karlsruhe, Institut für Toxicologie und Genetik , Postfach 3640, D-76021 Karlsruhe, Germany

[3 ]INSERM, Oncogenèse et Progression Tumorale, Université Claude Bernard Lyon I , 28 rue Laënnec, 69373 Lyon, France

[4 ]Collège de France , 11 place Marcelin Berthelot, 75231 Paris, France

[5 ]Leibniz Research Institute for Environmental Medicine (IUF) , 40021 Düsseldorf, Germany

[6 ]Present address: Boehringer-Ingelheim RCV and Co KG, Dr. Boehringer-Gasse 5-11, A-1121 Vienna, Austria.

[7 ]Present address: Georg-August-University Göttingen, Dept. of Neuropathology, Robert-Koch-Strasse 40, D-37075 Göttingen, Germany.

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[]

These authors contributed equally to this work

[* ]Authors for correspondence ( ploubidou@ 123456fli-leibniz.de ; herrlich@ 123456fli-leibniz.de )

Article

Publisher ID: BIO201510892

DOI: 10.1242/bio.201410892

PMC ID: 4400598

PubMed ID: 25750434

SO-VID: 58b8e5d5-33a2-409c-b6fa-08283c92c97a

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This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.

RHAMM deficiency disrupts folliculogenesis resulting in female hypofertility

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Universal stem cells

Most cited references 53

Phenotypic profiling of the human genome by time-lapse microscopy reveals cell division genes.

The road to maturation: somatic cell interaction and self-organization of the mammalian oocyte.

MAPK3/1 (ERK1/2) in ovarian granulosa cells are essential for female fertility.

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