Following the preovulatory surge of gonadotropins, the compact layer of cumulus cells in the antral follicle secretes a hyaluronic acid-enriched extracellular matrix and undergoes a morphological change referred to as cumulus expansion. It has been previously shown that a soluble factor(s) produced by the oocyte is required, in combination with FSH, to promote this process. Since such matrix is sensitive to proteases we have now studied the effect of the oocyte on another gonadotropin-controlled follicle cell function, i.e., the synthesis of plasminogen activator (PA). Our data indicate that isolated cumulus cells secrete uPA in the medium and that FSH or dbcAMP increases this production. The presence of the oocyte or the oocyte-conditioned medium greatly reduces uPA synthesis induced by FSH and dbcAMP in cumulus cells by modulating the abundance of its mRNA. The ability of the mouse oocyte to produce such a factor(s) is dependent upon its stage of development, with fully grown oocytes but not growing oocytes or two-cell embryos being able to inhibit uPA synthesis. A preliminary characterization of this factor suggests that it is a heat-unstable protein with an apparent molecular weight above 100 kDa. Thus, the mouse oocytes appear to promote preovulatory matrix accumulation that occurs just prior ovulation by modulating the gonadotropin action on both the synthesis and the degradation of specific matrix component.