Project description:The main objective of superovulatory treatment is to achieve multiple ovulations and produce multiple embryos. The technique is intended to rescue a cohort of follicles within a follicular wave that would otherwise regress. Superstimulory treatments change the intra-follicular and systemic hormonal milieu, but it is not clear how and to what extent treatment alters gene expression of follicular cells. In this study, a genome-wide bovine oligo-microarray was used to compare the gene expression of granulosa cells from post-LH preovulatory dominant follicle with those from follicles of the same status after superstimulatory treatment. Cows were allocated randomly to two groups (superstimulation group and control group, n=6 cows per group). A new follicular wave was induced by transvaginal ultrasound-guided ablation of follicles ?5 mm in diameter, and a progesterone-releasing device (CIDR) was placed in vagina. The superstimulation group was given eight doses of 25 mg FSH im at 12-h intervals starting from the day of wave emergence (Day 0), whereas the control group was not given any FSH treatment. Both groups were given prostaglandin F2? im twice, 12 h apart, on Day 3 and the CIDR was removed at the second injection; 25 mg pLH was given im 24 h after CIDR removal, and cows were ovariectomized 24 h later. Granulosa cells were collected for RNA extraction, amplification and microarray hybridization. To translate microarray results to a physiological context, a list of differentially expressed transcripts were biologically annotated. A total of 190 genes were down-regulated and 280 genes were up-regulated in superstimulated group when compared with the reference (non-superstimulated control) group. straight comparison of superstimulation group (the treatment; group 1) versus non-superstimulated ( the reference; group 4) using 3 different aninals (biological replicates) in each group and performed dye swap. For example on array 1: group1 cow 1 versus group 4 cow 1 (cy3 vs cy5) and on array 4 is the dey swap group 4 cow 1 versus group 1 cow 1 (cy3 vs cy5).

Project description:Conventional Superstimulation (group 1) vs. Long Superstimulation (group 3) A genome-wide bovine oligo-microarray was used to compare the gene expression of granulosa cells collected from ovarian follicles after differing durations of the growing phase induced by exogenous FSH treatment. Cows were given a conventional (4-day) or long (7-day) superstimulatory treatment (25mg FSH im at 12-h intervals; n=6 per group), followed by prostaglandin treatment with last FSH and LH treatment 24 hr later. Granulosa cells were harvested 24 h after LH treatment. The expression of 416 genes was down-regulated and 615 genes was up-regulated in the long FSH group compared to the conventional FSH group. Quantification by RT-PCR of 7 genes (NTS, PTGS2, PTX3, RGS2, INHBA, CCND2 and LRP8) followed the same trend as in microarrays. Compared to the conventional group, the long FSH group responded to exogenous LH with down-regulation of mRNA for cyclinD2, lipoprotein receptorP8, CYP51A1, CYP19A1, CJA1, INHBA, SRPINE1, and up-regulation of Vannin, POSTN, GTPAse, Cysteine. Markers of fertility and follicle maturity were up-regulated in the long FSH group. We conclude that a prolonged FSH-induced growing phase is associated with transcriptomic characteristics of greater follicular maturity and may therefore be more appropriate for optimizing the superovulatory response and developmental competence of oocytes in cattle.

Project description:Conventional Superstimulation (group 1) vs. Long Superstimulation (group 3) A genome-wide bovine oligo-microarray was used to compare the gene expression of granulosa cells collected from ovarian follicles after differing durations of the growing phase induced by exogenous FSH treatment. Cows were given a conventional (4-day) or long (7-day) superstimulatory treatment (25mg FSH im at 12-h intervals; n=6 per group), followed by prostaglandin treatment with last FSH and LH treatment 24 hr later. Granulosa cells were harvested 24 h after LH treatment. The expression of 416 genes was down-regulated and 615 genes was up-regulated in the long FSH group compared to the conventional FSH group. Quantification by RT-PCR of 7 genes (NTS, PTGS2, PTX3, RGS2, INHBA, CCND2 and LRP8) followed the same trend as in microarrays. Compared to the conventional group, the long FSH group responded to exogenous LH with down-regulation of mRNA for cyclinD2, lipoprotein receptorP8, CYP51A1, CYP19A1, CJA1, INHBA, SRPINE1, and up-regulation of Vannin, POSTN, GTPAse, Cysteine. Markers of fertility and follicle maturity were up-regulated in the long FSH group. We conclude that a prolonged FSH-induced growing phase is associated with transcriptomic characteristics of greater follicular maturity and may therefore be more appropriate for optimizing the superovulatory response and developmental competence of oocytes in cattle. straight comparison of Short Superstimulation group (the reference; group 1) versus a Long Superstimulation protocol ( the treatment; group 3) using 3 different animals (biological replicates) in each group and performed dye swap. For example on array 1: group 1 cow 1 versus group 3 cow 1 (cy3 vs cy5) and on array 4 is the dye swap group 3 cow 1 versus group 1 cow 1 (cy3 vs cy5).

Project description:Transcriptional profiling of cows granulosa cells comparing granulosa cells from superstimulated control cows with granulosa cells from superstimulated cetrotide treated cows. Abstract:In cow, follicular growth stimulation (FSH) followed by a 44h-68h coasting (no FSH) period has been shown to be beneficial for developmental competence of aspirated oocytes. This process has been optimized but the associated physiology is not perfectly understood. During the above treatment LH pulse frequency is basal as the animal are in the luteal phase. The goal of this study was to test the existence of a beneficial effect of basal LH pulses during competence acquisition. To answer to this question, LH pulses have been pharmacologically inhibited during the optimal coasting period with GnRH antagonists. Commercial milking cycling cows (n=5) were stimulated with 3 days of FSH followed by a coasting period of 68H, with and without cetrorelix injections. At the scheduled time, transvaginal aspirations of immature oocytes were performed, followed by IVF while follicular cells were pooled for each animal and were snap-frozen. Granulosa cells RNA was extracted amplified and hybridized on Embryogene bovine microarray slides. Data were normalized with Loess, and analyzed with Limma procedure. Follicle size group proportions and granulosa cell transcriptome were studied. (1) There was a significant reduction in >10mm diameter follicles with cetrorelix comparing to without treatment. (2) Transcriptome analysis reveals 724 tanscripts potentially regulated by basal gonadotropins before LH surge. Among this LH influenced gene group, 84 transcripts were positively associated to developmental competence. This work allows the identification of subpopulations of gene signals dependant from LH or not, and permits a better comprehension of the implication of basal LH in follicle growth and in competence acquisition process.

Project description:FSH signaling is well known to lead to steroidogenesis, cellular proliferation, and follicular growth. The development of global transcriptomic allows to expand our understanding of the FSH effect on several additional functions of granulosa cells and to better understand how it controls or prevents several differentiation events in granulosa cells from medium size follicles

Project description:Metritis is associated with reduced fertility in dairy cows, but the mechanisms are unclear because the disease resolves several weeks before insemination. One hypothesis is that metritis causes persistent changes in granulosa cells during follicle development, which might be evident in the transcriptome of granulosa cells from dominant follicles weeks after parturition. To test this hypothesis we collected follicular fluid and granulosa cells from dominant follicles 63 days post partum from cows previously diagnosed with metritis, at least 6 weeks after resolution of the disease, and from cows not diagnosed with metritis (control cows). Bacterial lipopolysaccharide was detected in follicular fluid, and concentrations were associated with follicular fluid IL-8 and glucose concentrations. Transcriptome analysis using RNAseq revealed 177 differentially expressed genes in granulosa cells collected from cows that had metritis compared with control cows. The most upregulated genes were ITLN1, NCF2, CLRN3, FSIP2 and ANKRD17, and the most downregulated genes were ACSM1, NR4A2, GHITM, CBARP and NR1I3. Pathway analysis indicated that the differentially expressed genes were involved with immune function, cell-cell communication, cell cycle and cellular metabolism. Predicted upstream regulators of the differentially expressed genes included NFκB, IL-21 and lipopolysaccharide, which are associated with infection and immunity. Our data provide evidence for a persistent effect of metritis on the transcriptome of granulosa cells in ovarian follicles after the resolution of disease

Project description:The objective of the study was to determine how maternal age influences the transcriptome of the dominant follicle during the preovulatory period. We tested the hypotheses that delayed ovulation in aged cows is associated with 1) altered gene expression of granulosa cells of preovulatory follicles (24 h after LH treatment) and 2) decreased synthesis of progesterone by granulosa cells of the preovulatory follicle. Granulosa cells of preovulatory follicles obtained 24 h after LH treatment from aged Hereford cows (19.0 ±2.5 years; n=3) were compared to those from young cows (9.0 ± 0.6 years; n=3) using bovine specific microarrays (EmbryoGENE-EMBV3; GPL13226). Results were confirmed by RT-qPCR. A total of 1340 genes or gene isoforms were expressed differentially (≥2-fold change; p ≤ 0.05) in aged cows vs. young cows (daughters of aged cows). In conclusion, transcriptome analysis of granulosa cells from aged cows revealed a delayed or suboptimal response to the preovulatory LH stimulus, represented by delayed cellular differentiation, luteinization and progesterone synthesis. Granulosa cells of the dominant preovulatory follicle 24 h after LH treatment were compared between aged vs.young cows. Three biological replicates (each composed of one aged and one young cow). 3 Three technical replicate (dye swap). One biological or technical replicate per array.

Project description:The objective of the study was to determine how maternal age influences the transcriptome of the dominant follicle during the preovulatory period. We tested the hypotheses that delayed ovulation in aged cows is associated with 1) altered gene expression of granulosa cells of preovulatory follicles (24 h after LH treatment) and 2) decreased synthesis of progesterone by granulosa cells of the preovulatory follicle. Granulosa cells of preovulatory follicles obtained 24 h after LH treatment from aged Hereford cows (19.0 ±2.5 years; n=3) were compared to those from young cows (9.0 ± 0.6 years; n=3) using bovine specific microarrays (EmbryoGENE-EMBV3; GPL13226). Results were confirmed by RT-qPCR. A total of 1340 genes or gene isoforms were expressed differentially (≥2-fold change; p ≤ 0.05) in aged cows vs. young cows (daughters of aged cows). In conclusion, transcriptome analysis of granulosa cells from aged cows revealed a delayed or suboptimal response to the preovulatory LH stimulus, represented by delayed cellular differentiation, luteinization and progesterone synthesis.

Project description:Bovine granulosa cells harvested from cohort follicles at 1.3 days after wave emergence, and from dominant and subordinate follicles at 2.6 days after wave emergence. Total RNA extracted from granulosa cells of 4 cohort, 4 dominant and 4 subordinate follicles was pooled for generation of each respective SAGE library. Keywords: other

Project description:Bovine granulosa cells harvested from cohort follicles at 1.3 days after wave emergence, and from dominant and subordinate follicles at 2.6 days after wave emergence. Total RNA extracted from granulosa cells of 4 cohort, 4 dominant and 4 subordinate follicles was pooled for generation of each respective SAGE library. Keywords: other