Litcius/Paper detail

PUM1 mediates the posttranscriptional regulation of human fetal hemoglobin

Reem Elagooz, Anita Dhara, Rose M. Gott, Sarah Adams, Rachael A. White, Arnab Ghosh, Shinjini Ganguly, Yuncheng Man, Amma Owusu‐Ansah, Omar Y. Mian, Umut A. Gürkan, Anton A. Komar, Mahesh Ramamoorthy, Merlin Nithya Gnanapragasam

2022Blood Advances15 citationsDOIOpen Access PDF

Abstract

The fetal-to-adult hemoglobin switching at about the time of birth involves a shift in expression from γ-globin to β-globin in erythroid cells. Effective re-expression of fetal γ-globin can ameliorate sickle cell anemia and β-thalassemia. Despite the physiological and clinical relevance of this switch, its posttranscriptional regulation is poorly understood. Here, we identify Pumilo 1 (PUM1), an RNA-binding protein with no previously reported functions in erythropoiesis, as a direct posttranscriptional regulator of β-globin switching. PUM1, whose expression is regulated by the erythroid master transcription factor erythroid Krüppel-like factor (EKLF/KLF1), peaks during erythroid differentiation, binds γ-globin messenger RNA (mRNA), and reduces γ-globin (HBG1) mRNA stability and translational efficiency, which culminates in reduced γ-globin protein levels. Knockdown of PUM1 leads to a robust increase in fetal hemoglobin (∼22% HbF) without affecting β-globin levels in human erythroid cells. Importantly, targeting PUM1 does not limit the progression of erythropoiesis, which provides a potentially safe and effective treatment strategy for sickle cell anemia and β-thalassemia. In support of this idea, we report elevated levels of HbF in the absence of anemia in an individual with a novel heterozygous PUM1 mutation in the RNA-binding domain (p.(His1090Profs∗16); c.3267_3270delTCAC), which suggests that PUM1-mediated posttranscriptional regulation is a critical player during human hemoglobin switching.

Topics & Concepts

Gene knockdownGlobinErythropoiesisBiologyFetal hemoglobinMessenger RNACell biologyTranscription factorRNA-binding proteinAnemiaFetusCell cultureGeneGeneticsInternal medicineMedicinePregnancyHemoglobinopathies and Related DisordersRNA modifications and cancerRNA Research and Splicing