Temperature-dependent osmotic behavior of germinal vesicle and metaphase II stage bovine oocytes in the presence of Me2SO in relationship to cryobiology.

Plasma membrane permeability coefficients and their activation energies (Ea) for water (Lp) and dimethyl sulfoxide (PMe2SO) as well as the reflection coefficient (sigma) were determined for germinal vesicle (GV) and metaphase II (MII) bovine oocytes. A micropipette perfusion technique was used with a temperature controlled circulation chamber, which was adapted to a micromanipulator. Experiments were performed at five different temperatures (30, 20, 10, 4 and -3 degrees C). The Kedem and Katchalsky model was assumed and L(p), P(Me2SO) and sigma were estimated. Estimated permeability values from the experimental temperatures were then applied to Arrhenius plots In(Lp) or In(PMe2SO) vs 1/Temperature (K) to estimate the activation energies (Ea) for L(p)Me2SO and P(Me2SO). The estimated E(a) for L(p)Me2SO for GV and MII oocytes were 23.84 Kcal/mol and 8.46 Kcal/mol, respectively. The E(a) for P(Me2SO) were 21.0 Kcal/mol and 23.20 Kcal/mol, respectively. The correlation (r2) for these linear regression plots for GV oocytes were 0.83 and 0.95 for L(p)Me2SO and P(Me2SO), respectively. For MII oocytes, r2 values were 0.95 and 0.99 for L(p)Me2SO and P(Me2SO), respectively. There was a possible discontinuity detected in the Arrhenius plot for L(p)Me2SO for GV oocytes. A significant decrease of the reflection coefficient was observed at 10 degrees C compared to other experimental temperatures. These data provide a fundamental basis that should be taken into account for low temperature preservation of bovine oocytes in the presence of Me2SO.