Abstract
The effect of alpha-amino-N-butyric acid (alpha ABA) on fetal hemoglobin production in the adult was examined in vivo after being administered to normal and anemic baboons and in erythroid progenitor cell cultures. Infusion of alpha ABA for five days resulted in four- to fivefold increases in the level of F reticulocytes of normal or chronically anemic baboons. The induction of HbF by alpha ABA was strikingly enhanced by the administration of 5-azacytidine. The addition of alpha ABA in culture produced a concentration-related increase of HbF in baboon CFUe and e-cluster colonies. In addition to the induction of HbF, alpha ABA stimulated the growth of all classes of erythroid progenitors in vivo or in culture. The activation of gamma- globin gene expression by alpha ABA is attributed to an interaction between regulatory sites of globin chromatin modified by alpha ABA and the immature intracellular environment of the expanding erythropoiesis. The combination of chromatin modification, DNA methylation, and the immature intracellular environment of rapid erythroid regeneration may explain the synergistic induction of HbF by alpha ABA and 5-azacytidine.