Effect of fixed-time artificial insemination on corpus luteum gene expression at the day 16 and 25 pregnancy of gilt.

Utilization of female livestock can be optimized by application of Fixed-Time Artificial Insemination (FTAI), which plays an important role in large-scale livestock production. However, molecular mechanism of FTAI affecting reproductive performance remains unclear. To investigate the effects of FTAI on corpus luteum in 16 and 25 days of pregnancy gilts, 12 pregnancy gilts were selected from Altrenogest + PMSG + GnRH (APG) group and control group. The number of left and right CL in APG group were significantly higher than control (p < 0.05). Furthermore, result showed the number of differentially expressed genes between 16APG group and 16 C group was obviously larger than that between 25APG and 25 C group (2394 vs. 1476). Up regulated genes in APG were mainly associated with cytokine production and secretion, cell communication and transport (day 16) and angiogenesis, cell cycle and cell-cell signaling (day 25). The expression of differentially expressed genes (RPL10, CYP17A1, DCN, IL18, LDLR and PRLR) in luteal tissue were verified by real-time PCR. In summary, APG program significantly improve reproductive efficiency of gilts through up regulation of cytokine production/secretion, cell communication and transport in Day 16 pregnancy and angiogenesis, cell cycle and cell-cell signaling at Day 25 pregnancy in porcine.

MicroRNAs are potential regulators of the timed artificial insemination effect in gilt endometrium.

To determine effects of timed artificial insemination (TAI) hormonal treatments on reproductive performance of gilts/sows and explore molecular mechanisms, gilts (TAI: 90; Control:149; Total: 239) and sows (TAI: 370; Control: 492) were utilized. Results indicated the estrus/farrowing rate and number of piglets born alive and weaned in the TAI group were greater than in the control group for both gilts and sows. To explore the molecular mechanism for TAI hormonal effects, the small RNA of the gilt endometrium at 16 and 25 of gestation were sampled and sequenced to determine potential functions of microRNA (MiRNA); 358 known and 142 novel MiRNAs were detected. With comparison of TAI and control groups, there were 54 differentially abundant MiRNAs, and functional analysis results indicated "binding," "protein/ion binding," and "immune response" were mostly enriched. In addition, representative MiRNAs were selected based on criteria including being regulated on both day 16 and 25 of gestation (ssc-miR-10a-5p, ssc-miR-345-5p, ssc-miR-370) along with reproduction-related target genes (ssc-miR-424-5p, ssc-miR-142-5p). Furthermore, target genes of selected MiRNAs were screened, and functional enrichment of those genes also indicated that the "binding" and "immune response" were mainly enriched. Results from the present study confirmed TAI-hormonal treatments improved estrous/farrowing rate and number of piglets born alive/weaned of gilts/sows and that hormonal treatment regimens leading to behavioral estrus at timed artificial insemination in gilts results in microRNA patterns in the endometrium that are more supportive of pregnancy. Results contribute valuable information for future studies of effects of TAI hormonal treatments on pig reproductive performance.