Effects of heat stress during in vitro maturation on cytoplasmic versus nuclear components of mouse oocytes.

The objectives of this study were to investigate the effect of heat stress during in vitro maturation on the developmental potential of mouse oocytes and to determine whether the deleterious effect was on the nuclear or cytoplasmic component. While rates of oocyte nuclear maturation (development to the metaphase II stage) did not differ from 37 to 40 degrees C, rates for blastocyst formation decreased significantly as maturation temperature increased from 38.5 to 39 degrees C. Chromosome spindle exchange showed that while blastocyst formation did not differ when spindles matured in vivo or in vitro at 37, 40 or 40.7 degrees C were transplanted into in vivo matured cytoplasts, no blastocyst formation was observed when in vivo spindles were transferred into the 40 degrees C cytoplasts. While oocytes reconstructed between 37 degrees C ooplasts and 37 or 40 degrees C karyoplasts developed into 4-cell embryos at a similar rate, no oocytes reconstituted between 40 degrees C ooplasts and 37 degrees C spindles developed to the 4-cell stage. Immunofluorescence microscopy revealed impaired migration of cortical granules and mitochondria in oocytes matured at 40 degrees C compared with oocytes matured at 37 degrees C. A decreased glutathione/GSSG ratio was also observed in oocytes matured at 40 degrees C. While spindle assembling was normal and no MAD2 was activated in oocytes matured at 37 or 40 degrees C, spindle assembling was affected and MAD2 was activated in some of the oocytes matured at 40.7 degrees C. It is concluded that 1) oocyte cytoplasmic maturation is more susceptible to heat stress than nuclear maturation, and 2) cytoplasmic rather than nuclear components determine the pre-implantation developmental capacity of an oocyte.