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The role of PLCbeta1 in the control of oocyte meiosis during folliculogenesis. Pesty A et al. The dynamics of the subcellular distribution of PLCbeta1 was investigated during meiosis competence acquisition and meiosis resumption in relation to oocyte diameter and to nonsurrounded-nucleolus or surrounded-nucleolus chromatin configurations. Oocytes collected after both in vivo and in vitro folliculogenesis were studied. In both conditions, at the beginning of the process, most oocytes exhibited a nuclear PLCbeta 1 associated with a nonsurrounded-nucleolus chromatin configuration. Then at the final stage of the process, the factors shifted mainly toward a cytoplasmic PLCbeta1 and a surrounded-nucleolus chromatin configuration, typical of a preovulatory fertilizable oocyte. Additionally, only germinal vesicle oocytes with a diameter > 75 microm, and exhibiting cytoplasmic PLC beta1 distribution and surrounded-nucleolus chromatin configuration, resumed meiosis. Our findings demonstrate a strong correlation between oocyte diameter, chromatin configuration, and PLCbeta1 localization. Thus, PLCbeta1 localization appears to be a key factor determining the progressive acquisition of meiotic competence and final resumption of meiosis.
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Ovarian superstimulation using FSH combined with equine chorionic gonadotropin (eCG) upregulates mRNA-encoding proteins involved with LH receptor intracellular signaling in granulosa cells from Nelore cows. Castilho AC 2014 et al.
The LH plays a key role in controlling physiological processes in the ovary acting via LH receptor (LHR). In general, the effects of LHR on the regulation of granulosa cell differentiation are mediated mainly via the Gs-protein/adenylyl cyclase/cAMP system; however, the LHR activation could also induce phospholipase C (PLC)/inositol trisphosphate (IP3) via Gq/11 system. Additionally, the expression of G-proteins (GNAS, GNAQ, and GNA11) and PLC has been showed in bovine antral follicle, concomitant with an increase in LHR expression. To gain insight into the effects of superstimulation with FSH (P-36 protocol) or FSH combined with equine chorionic gonadotropin (eCG; P-36/eCG protocol) on the mRNA expression of proteins involved in LHR signaling in bovine granulosa cells, Nelore cows (Bos indicus) were treated with two superstimulatory protocols: P-36 protocol or P-36/eCG protocol (replacement of the FSH by eCG administration on the last day of treatment). Nonsuperstimulated cows were only submitted to estrous synchronization without ovarian superstimulation. The granulosa cells were harvested from follicles and mRNA abundance of GNAS, GNAQ, GNA11, PLCB1, PLCB, PLCB4, and adenylyl cyclase isoforms (ADCY3, ADCY4, ADCY6, ADCY8, and ADCY9) was measured by real-time reserve transcription followed by polymerase chain reaction. No differences on mRNA abundance of target genes were observed in granulosa cells of cows submitted to P-36 protocol compared with control group. However, the cows submitted to P-36/eCG protocol showed upregulation on the mRNA abundance of target genes (except ADCY8) in granulosa cells. Although the P-36 protocol did not regulate mRNA expression of the proteins involved in the signaling mechanisms of the cAMP and IP3 systems, the constant presence of GNAS, GNAQ, GNA11, PLCB1, PLCB3, PLCB4, and adenylyl cyclase isoforms (ADCY3, ADCY4, ADCY6, and ADCY9) mRNA and the upregulation of these genes in granulosa cells from cows submitted to P-36/eCG protocol reinforce the participation of Gq/11/PLC/IP3 signaling as well as Gs-protein/adenylyl cyclase/cAMP system on LHR pathways during bovine granulosa cell differentiation submitted to superstimulatory treatments.
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