BioSpace - MicroRNA-96 Directly Inhibits ?-Globin Expression in Human Erythropoiesis

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Hematology - Molecular Biology

MicroRNA-96 Directly Inhibits ?-Globin Expression in Human Erythropoiesis
Published: Thursday, July 28, 2011
Author: Imane Azzouzi et al.

by Imane Azzouzi, Hansjoerg Moest, Jeannine Winkler, Jean-Claude Fauchère, André P. Gerber, Bernd Wollscheid, Markus Stoffel, Markus Schmugge, Oliver Speer

Fetal hemoglobin, HbF (a₂?₂), is the main hemoglobin synthesized up to birth, but it subsequently declines and adult hemoglobin, HbA (a₂ß₂), becomes predominant. Several studies have indicated that expression of the HbF subunit ?-globin might be regulated post-transcriptionally. This could be confered by ~22-nucleotide long microRNAs that associate with argonaute proteins to specifically target ?-globin mRNAs and inhibit protein expression. Indeed, applying immunopurifications, we found that ?-globin mRNA was associated with argonaute 2 isolated from reticulocytes that contain low levels of HbF (<1%), whereas association was significantly lower in reticulocytes with high levels of HbF (90%). Comparing microRNA expression in reticulocytes from cord blood and adult blood, we identified several miRNAs that were preferentially expressed in adults, among them miRNA-96. The overexpression of microRNA-96 in human ex vivo erythropoiesis decreased ?-globin expression by 50%, whereas the knock-down of endogenous microRNA-96 increased ?-globin expression by 20%. Moreover, luciferase reporter assays showed that microRNA-96 negatively regulates expression of ?-globin in HEK293 cells, which depends on a seedless but highly complementary target site located within the coding sequence of ?-globin. Based on these results we conclude that microRNA-96 directly suppresses ?-globin expression and thus contributes to HbF regulation. More...