287 EFFECT OF FOLLICULAR AGING ON THE ATP CONTENT AND DISTRIBUTION OF MITOCHONDRIA IN BOVINE OOCYTES

Abstract

Our objective was to determine how follicular aging affects the distribution and content of mitochondrial population and ATP in in vivo-matured bovine oocytes. We hypothesised that in vivo-matured bovine oocytes obtained from aged follicles (84 h of gonadotropin starvation) have altered mitochondrial distribution and decreased cytoplasmic ATP content compared to those obtained immediately at the end of a superstimulatory protocol (no starvation). Follicular waves were synchronized by ablation 5 to 8 d after ovulation and a CIDR device was given. Starting on the day of wave emergence (Day 0), short FSH and FSH starvation groups (n = 5 heifers each) were given 8 doses of FSH im over 4 d and the long FSH group (n = 4) was given 14 doses over 7 d. Two doses of PGF were given on Day 4 (short FSH) or Day 7 (FSH starvation and long FSH groups), the CIDR was removed, and LH was given 24 h after second PGF treatment. The ovaries were removed 24 h later by colpotomy and cumulus-oocyte-complexes (COC) were collected from follicles ≥8 mm. Denuded oocytes were either stained with Mitotracker Deep Red FM and imaged by confocal microscopy or processed for ATP assay. Mitochondria numbers were assessed by segmentation of 3D datasets. Proportions of COC within each grade were compared using Fischer's exact test, and ATP and mitochondrial data were compared by analysis of variance. Short and long FSH groups had a greater proportion of Grade 1 expanded COC than the FSH starvation group (P = 0.02). The ATP content of oocytes (from expanded COC) tended to be higher in the long FSH group than short FSH (P = 0.09), and the FSH starvation group was intermediate. The ATP content of oocytes from compact COC did not differ among groups (P = 0.49). The proportion of mitochondrial clusters was highest (P = 0.01) and the proportion of individual mitochondria was lowest (P = 0.01) in the FSH starvation group compared to short and long FSH groups. Mitochondria from the long FSH and FSH starvation groups had twice the relative intensity compared to the short FSH group (P < 0.01). In conclusion, follicular aging (FSH starvation) was associated with a decrease in oocyte morphologic grade and marked clustering of mitochondria, which may be a reflection of oxidative stress and atresia.