In Vitro Sub-Hemolytic Effects of Butoxyacetic Acid on Human and Rat Erythrocytes

doi:10.1093/toxsci/69.1.258

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Toxicological Sciences 69, 258-264 (2002)
Copyright © 2002 by the Society of Toxicology

SAFETY EVALUATION

In Vitro Sub-Hemolytic Effects of Butoxyacetic Acid on Human and Rat Erythrocytes

Mark M. Udden¹

Department of Medicine, Hematology/Oncology Section, Baylor College of Medicine, BCMD 525D, One Baylor Plaza, Houston, Texas 77030

When 2-butoxyethanol (2-BE) is administered to rats, hemolysisoccurs as the active metabolite butoxyacetic acid (BAA) is formed.Human red blood cells appear to be relatively resistant to thehemolytic effects of BAA in vitro, whereas rat red blood cellsundergo changes in deformability, cell swelling, and hemolysis.In this study, exposure of human red blood cells to high concentrationsof BAA resulted in loss of deformability and a small increasein mean cellular volume, but no significant hemolysis. Thesechanges resembled the changes that occur in rat erythrocytesexposed to much lower concentrations of BAA. Therefore, a comparisonwas made between the sub-hemolytic effects of BAA at high concentrations(up to 10 mM) on human red cells with the sub-hemolytic effectsof lower concentrations of BAA (up to 0.1 mM) on rat erythrocytes.Under these conditions, human and rat erythrocyte deformabilitydecreased, while mean cellular volume (MCV) and osmotic fragilityincreased. Although there was a substantial shift in rat erythrocytesto lower densities, human erythrocyte density was only slightlydecreased. Human and rat erythrocyte sodium also increased.Rat erythrocytes demonstrated increased spherocytosis. In asurvey of blood samples from adults and children, none demonstratedan increase in hemolysis (n = 97) or MCV (n = 65) after exposureto 10 mM BAA for 4 h. In these experiments, in which hemolysiswas not evident, human erythrocytes required exposure to a 100-foldgreater concentration of BAA to develop changes in red celldeformability, osmotic fragility, and sodium content similarto those observed in rat erythrocytes. These concentrationsare not likely to occur under normal human use of 2-BE-containingproducts.

Key Words: 2-butoxyethanol; ethylene glycol monobutyl ether; butoxyacetic acid; glycol ethers; hemolysis; rat erythrocytes; human erythrocytes.

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