Differential effects of mitochondrial inhibitors on porcine granulosa cells and oocytes

- Oocytes depends on self-produced energy through mitochondria as well as energy provided from granulosa cells.
- Granulosa cells depends on glycolysis and are not affected by mitochondrial inhibition.
- Even with mitochondrial dysfunction, granulosa cells can provide energy for oocytes.

Oocytes and granulosa cells rely primarily on mitochondrial respiration and glycolysis for energy production, respectively. The present study examined the effect of mitochondrial inhibitors on the ATP contents of oocytes and granulosa cells. Cumulus cell-oocyte complexes (COCs) and granulosa cells (GCs) were collected from the antral follicles of porcine ovaries. Treatment of denuded oocytes with either carbonyl cyanide m-chlorophenyl hydrazine (CCCP), antimycin, or oligomycin significantly reduced ATP content to very low levels (CCCP, 0.12 pM; antimycin, 0.07 pM; and oligomycin, 0.25 pM; P < 0.05), whereas treatment with a glycolysis inhibitor (bromopyruvic acid, BA) had no effect. Conversely, the ATP content of granulosa cells was significantly reduced by treatment with the glycolysis inhibitor but was not affected by the mitochondrial inhibitors (ATP/10,000 cells; control, 1.78 pM and BA, 0.32 pM; P < 0.05). Reactive oxygen species (ROS) generation after CCCP treatment was greater in oocytes (1.6-fold) than that seen in granulosa cells (1.08-fold). Oocytes surrounded by granulosa cells had higher ATP levels than denuded oocytes. Treatment of COCs with CCCP reduced, but did not completely abolish, ATP content in oocytes (control, 3.15 pM and CCCP, 0.52 pM; P < 0.05), whereas treatment with CCCP plus a gap junction inhibitor, 18α-glycyrrhetinic acid, and CCCP decreased the ATP content to even lower levels (0.29 pM; P < 0.05). These results suggest that granulosa cells are dependent on glycolysis and provide energy to oocytes through gap junctions, even after treatment with CCCP.

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