The influence of fibroblast growth factor 16 (FGF16) and bone morphogenetic protein 15 (BMP15) in the acquisition of oocyte competence in cattle.

In vitro embryo production (IVEP) efficiency is reduced when compared to in vivo. Gaining knowledge of bovine oocyte maturation mechanisms will provide bases to improve in vitro systems. The present study assessed the in vitro effects of fibroblast growth factor 16 (FGF16), bone morphogenetic protein 15 (BMP15) and their interaction on relevant parameters to cumulus oocyte complex (COC) development, such as: cumulus cells (CC) expansion, oocyte and CC DNA fragmentation, nuclear maturation, energetic metabolism and progesterone production. COCs were matured in control or supplemented media containing, FGF16 (10ng/ml), BMP15 (100ng/ml), FGF16±BMP15 and analyzed at different times of IVM (0 and 22 hours). CC expansion evaluation demonstrated a positive effect (p=0.0071) of BMP15 (11.34±1.09 arbitrary unit/AU) and FGF16+BMP15 (11.34±0,61 AU) when compared to control (8.73±0.44 AU) and FGF16 groups (9.42±0.65 UA). The presence of DNA fragmentation in CC (p=0.0015) and oocytes (p=0.036) were lower in COCs treated in media supplemented with BMP15 (11.73±1.24 % and 3.81&plusmn2.76 %, respectively) in comparison to FGF16 group (22.54±2.80 % and 31.13±7.81 %, respectively). Moreover, FGF16 caused an increase in CC DNA fragmentation, when related to control (16.04±1.45 %). Oocyte nuclear maturation rate was higher (p=0.014) in groups supplemented with BMP15 (93.60±4.03 %) compared to control (80.80±2.49 %) and FGF16 treatments (76.75±2.28 %), almost reaching the totality of COCs. In an unprecedented way, we described the BMP15 increasing action on progesterone production (10.79±0,72 ng/ml; p=0.0113) when compared to control (8.38±0.39 ng/ml) and FGF16 groups (8.84±0.45 ng/ml). There were no differences in glucose consumption and lactate production. The present study reinforces BMP15 involvement in folliculogenesis and COC differentiation. FGF16 (10 ng/ml) media supplementation did not improve any of the outcomes measured, suggesting that FGF16 is not involved in the maturation steps analyzed in the present in vitro study. Thus, the inclusion of BMP15 (100 ng/ml) to conventional IVEP protocols can be valuable to increase the effectiveness of this biotechnology. Synergistic action between FGF16 and BMP15 was not observed. (AU)