Ammonium Induces Aberrant Blastocyst Differentiation, Metabolism, pH Regulation, Gene Expression and Subsequently Alters Fetal Development in the Mouse

doi:10.1095/biolreprod.103.018093

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Ammonium Induces Aberrant Blastocyst Differentiation, Metabolism, pH Regulation, Gene Expression and Subsequently Alters Fetal Development in the Mouse

Michelle Lane¹, and David K. Gardner

Research Department, Colorado Center for Reproductive Medicine, Englewood, Colorado 80110

The presence of ammonium in the culture medium has significantdetrimental effects on the regulation of embryo physiology andgenetics. Ammonium levels build up linearly over time in theculture medium when media containing amino acids are incubatedat 37°C. Ammonium in the culture media significantly reducesblastocyst cell number, decreases inner cell mass development,increases apoptosis, perturbs metabolism, impairs the abilityof embryos to regulate intracellular pH, and alters the expressionof the imprinted gene H19. In contrast, the rate of blastocystdevelopment and blastocyst morphology appear to be normal. Thetransfer of blastocysts exposed to ammonium results in a significantreduction in the ability to establish a pregnancy. Furthermore,of those embryos that manage to implant, fetal growth is significantlyimpaired. Embryos exposed to 300 µM ammonium are retardedby 1.5 days developmentally at Day 15 of pregnancy. It is thereforeessential that culture conditions for mammalian embryos aredesigned to minimize the buildup of ammonium to prevent abnormalitiesin embryo physiology, genetic regulation, pregnancy, and fetaldevelopment.

¹ Correspondence: Michelle Lane, michelle.lane{at}adelaide.edu.au

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