Unequal accumulation of alpha- and beta-globin mRNA in erythropoietic mouse spleen.

Relative amounts and rates of synthesis of alpha- and beta-globin mRNAs were determined during splenic erythropoiesis in mice. At times after injection of mice with phenylhydrazine, alpha- and beta-globin mRNAs were separated by gel electrophoresis and quantitated by densitometric scanning of stained gels. At 66 hr after injection, the ratio of beta to alpha mRNA is about 1.2. By 138 hr, total globin mRNA is 5-fold greater in spleen cells, and the beta to alpha mRNA ratio approaches 2. This ratio remains around 1 in reticulocytes throughout this period. Analyses of globin products directed by these mRNAs from spleen cells and reticulocytes in the ascites cell-free system reflect the beta to alpha mRNA ratio observed by electrophoresis. Relative rates of synthesis of globin mRNAs were estimated after incubation of spleen cells with either [3H] uridine or [3H] adenosine. Although synthesis of both mRNAs is maximal at 114 hr and then declines sharply, beta mRNA is synthesized at a greater rate than alpha mRNA at every developmental stage. In contrast to the excess accumulation of beta mRNA in spleen cells, synthesis of alpha- and beta-globin chains remains balanced throughout erythroid development. These data suggest that during erythropoiesis in this system, equal synthesis of alpha and beta globin involves regulation at both transcriptional and post-transcriptional levels.