Previous work identified in blastocele fluid a soluble activity which killed embryonal carcinoma cells with trophectodermal potential but not those with embryonic potential [35]. From use of a malignant caricature of the late blastocyst, this toxic activity was postulated to be H2O2 [8]. The purpose of this paper was to determine if blastocele fluid also contained amounts of H2O2 capable of mediating the preferential killing of malignant pretrophectodermal cells (ECa 247). We not only observed that blastocele fluid is not toxic for these cells in the presence of catalase, but that malignant cells with embryonic potential (P19) that normally survive exposure to blastocele fluid become sensitive to it if their intracellular glutathione levels are lowered. Thus, it is concluded that the blastocyst contains amounts of H2O2 toxic to malignant pretrophectodermal cells and that glutathione-dependent mechanisms protect malignant inner cell mass cells with embryonic potential. Apparently, H2O2 production and glutathione-dependent protection mechanisms are developmentally regulated in the inner cell mass. These results are discussed with regards to apoptosis and the regulation of tissue mass.