155 CHARACTERIZATION OF LIPID DROPLETS IN BOS INDICUS AND BOS TAURUS EMBRYOS

Abstract

Accurate evaluation of bovine embryos for assessing developmental stage and quality is critical to the success of any embryo transfer program. However, this evaluation process has been reported to be highly subjective in Bos indicus (BI) and can vary as much as 23% compared with that of Bos taurus (BT). These differences in assessment may be related to the quantity of lipid droplets (LD) within the embryo, which has been shown to have a negative effect in cryopreserving embryos. The aim of the present study was to characterize the number and size of LD in different developmental stages of fresh embryos from BI and BT and to compare LD across the three different embryo quality grades (1 = excellent or good, 2 = fair, and 3 = poor). Nonsurgical embryo collection was performed 7 days post-insemination in 10 BI and 10 BT females. Forty-eight embryos were evaluated for stage and grade using stereoscopic microscopy, processed for transmission electron microscopy, and stained with Nile red. Digitalized images were analyzed with ImageJ (National Institutes of Health, Bethesda, MD, USA), contour of lipid droplets were designed, and values of perimeter, area, and fluorescence intensity were assessed. Nonparametric statistical analysis (Mann–Whitney) was utilized. There was no difference in LD number for BT or BI for morulae and blastocyst; however, BI morulae presented larger LD compared with blastocyst stage embryos (286 µm² v. 223 µm²; P < 0.05). Likewise, BI TF cells had more LD compared with inner cell mass (ICM) cells (48 v. 36; P < 0.05). BT TF cells exhibited larger LD compared with ICM cells (149 µm² v. 128 µm²; P < 0.05), while BI embryos exhibited a larger area of LD in the ICM compared with the TF (591 µm² v. 472 µm²; P < 0.05). In all embryos, BI contained more lipid droplets than BT (78 v. 49; P < 0.05). Across all quality grades (good, fair, and poor) there was no difference in the number of LD in BT embryos; however, BI grade-3 embryos presented more LD than grade-1 (36 v. 25). BT embryos LD were larger than BI LD (907 µm² v. 625 µm²; P < 0.05). Fluorescence images showed higher arbitrary units of fluorescence (auf) for LD in BI. Compared with BT embryos (386 auf v. 280 auf; P < 0.05). These results suggest that BI embryos contain more and smaller LD than BT embryos and the LD described for BI embryo quality grade 1 are larger than those of quality grades 2 and 3, and even though the number of LD in morulae and blastocyst stage embryos are not different LD size is reduced as development occurs.

Research funding provided by UNAM-DGAPA-PAPIIT IN200810.