Cytokinesis is the final event in the cell division. After cytokinesis, one parent cell divided into two symmetric daughter cells. Unlike somatic cell which is symmetrically divided, oocyte meiotic maturation is highly asymmetric division, producing mature ovum and polar body. Class III phosphoinositide 3-kinase (PI3K) has been known as a key molecular component that regulates cell cycle progression, autophagy and endosomal trafficking. However, emerging evidences suggest that class III PI3K and its interactors are involved in midbody abscission during cytokinesis. Here we showed that beclin-1, a key component of PI3K is required to regulate midbody abscission during oocyte asymmetric division. Beclin-1 was widely distributed during meiotic maturation forming small vesicles. However, these vesicles were not colocalized with autophagosomal marker LC3. Instead, beclin-1 was detectable at the midbody ring during cytokinesis. Depletion of beclin-1 showed various defects including the failure of cytokinetic abscission, spindle separation and chromosome decondensation. Similar phenotype was observed when class III PI3K activity was inhibited. Therefore, our results demonstrate that PI3K is essential for cytokinesis but not autophagy during oocyte meiosis.