Abstract

The culture conditions under which hypoxanthine maintains a two-cell block in preimplantation mouse embryos were assessed. Hypoxanthine prevented embryo development past the two-cell stage at concentrations as low as 30 nM, and this inhibitory activity required the presence of D-glucose. The action of hypoxanthine plus D-glucose was reversed by glutamine and higher lactate. D-mannose substituted for D-glucose in supporting the inhibitory action of hypoxanthine, but L-glucose, D-fructose, and 2-deoxyglucose were much less effective. Other purine derivatives such as inosine and adenosine, but not xanthosine or uric acid, also blocked development at the two-cell stage at a concentration of 30 microM, and guanosine was inhibitory at higher doses. Assays of hypoxanthine phosphoribosyltransferase (HPRT) activity in lysates of four-cell embryos determined that the drugs 6-mercapto-9-(tetrahydro-2-furyl)-purine (MPTF) and 6-mercaptopurine (6-MP), but not 6-azauridine (6-AzaU), prevented salvage of hypoxanthine. In addition, MPTF and 6-MP produced a significant two-cell block, which did not depend upon the presence of hypoxanthine or D-glucose; whereas 6-AzaU was without effect. When embryos were cultured 2 days in the presence or absence of D-glucose, hypoxanthine salvage was significantly reduced in lysates of four-cell embryos exposed to D-glucose. D-glucose had no effect when added directly to the assay mixture. These data demonstrate that the ability of hypoxanthine to block embryo development at the two-cell stage depends on the presence of D-glucose or other glycolyzable sugars and suggest that inhibition of the purine salvage pathway promotes the two-cell block.

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