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Protein profile of mouse ovarian follicles grown in vitro

Author:
Anastacio, Amandine  Rodriguez-Wallberg, Kenny A.  Chardonnet, Solenne  Pionneau, Cedric  Federici, Christian  Santos, Teresa Almeida  Poirot, Catherine  


Journal:
MOLECULAR HUMAN REPRODUCTION


Issue Date:
2017


Abstract(summary):

STUDY QUESTION: Could the follicle proteome be mapped by identifying specific proteins that are common or differ between three developmental stages from the secondary follicle (SF) to the antrum-like stage? SUMMARY ANSWER: From a total of 1401 proteins identified in the follicles, 609 were common to the three developmental stages investigated and 444 were found uniquely at one of the stages. WHAT IS KNOWN ALREADY: The importance of the follicle as a functional structure has been recognized; however, up-to-date the proteome of the whole follicle has not been described. A few studies using proteomics have previously reported on either isolated fully-grown oocytes before or after meiosis resumption or cumulus cells. STUDY DESIGN, SIZE, DURATION: The experimental design included a validated mice model for isolation and individual culture of SFs. The system was chosen as it allows continuous evaluation of follicle growth and selection of follicles for analysis at pre-determined developmental stages: SF, complete Slavjanski membrane rupture (SMR) and antrum-like cavity (AF). The experiments were repeated 13 times independently to acquire the material that was analyzed by proteomics. PARTICIPANTS/MATERIALS, SETTING, METHODS: SFs (n =3D 2166) were isolated from B6CBA/F1 female mice (n =3D 42), 12 days old, from 15 l. About half of the follicles isolated as SF were analyzed as such (n =3D 1143) and pooled to obtain 139 mu g of extracted protein. Both SMR (n =3D 359) and AF (n =3D 124) were obtained after individual culture of 1023 follicles in a microdrop system under oil, selected for analysis and pooled, to obtain 339 mu g and 170 mu g of protein, respectively. The follicle proteome was analyzed combining isoelectric focusing (IEF) fractionation with 1D and 2D LC-MS/MS analysis to enhance protein identification. The three protein lists were submitted to the 'Compare gene list' tool in the PANTHER website to gain insights on the Gene Ontology Biological processes present and to Ingenuity Pathway Analysis to highlight protein networks. A label-free quantification was performed with 1D LC-MS/MS analyses to emphasize proteins with different expression profiles between the three follicular stages. Supplementary western blot analysis (using new biological replicates) was performed to confirm the expression variations of three proteins during follicle development in vitro. MAIN RESULTS AND THE ROLE OF CHANCE: It was found that 609 out of 1401 identified proteins were common to the three follicle developmental stages investigated. Some proteins were identified uniquely at one stage: 71 of the 775 identified proteins in SF, 181 of 1092 in SMR and 192 of 1100 in AF. Additional qualitative and quantitative analysis highlighted 44 biological processes over-represented in our samples compared to the Mus musculus gene database. In particular, it was possible to identify proteins implicated in the cell cycle, calcium ion binding and glycolysis, with specific expressions and abundance, throughout in vitro follicle development. LARGE SCALE DATA: Data are available via ProteomeXchange with identifier PXD006227. LIMITATIONS, REASONS FOR CAUTION: The proteome analyses described in this study were performed after in vitro development. Despite fractionation of the samples before LC-MS/MS, proteomic approaches are not exhaustive, thus proteins that are not identified in a group are not necessarily absent from that group, although they are likely to be less abundant. WIDER IMPLICATIONS OF THE FINDINGS: This study allowed a general view of proteins implicated in follicle development in vitro and it represents the most complete catalog of the whole follicle proteome available so far. Not only were well known proteins of the oocyte identified but also proteins that are probably expressed only in granulosa cells.


Page:
827---841


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