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Multi-Omics Analysis in β-Thalassemia Using an HBB Gene-Knockout Human Erythroid Progenitor Cell Model

Guoqiang Zhou, Haokun Zhang, Anning Lin, Zhen Wu, Ting Li, Xumin Zhang, Hongyan Chen, Daru Lu

2022International Journal of Molecular Sciences11 citationsDOIOpen Access PDF

Abstract

β-thalassemia is a hematologic disease that may be associated with significant morbidity and mortality. Increased expression of HBG1/2 can ameliorate the severity of β-thalassemia. Compared to the unaffected population, some β-thalassemia patients display elevated HBG1/2 expression levels in their red blood cells. However, the magnitude of up-regulation does not reach the threshold of self-healing, and thus, the molecular mechanism underlying HBG1/2 expression in the context of HBB-deficiency requires further elucidation. Here, we performed a multi-omics study examining chromatin accessibility, transcriptome, proteome, and phosphorylation patterns in the HBB homozygous knockout of the HUDEP2 cell line (HBB-KO). We found that up-regulation of HBG1/2 in HBB-KO cells was not induced by the H3K4me3-mediated genetic compensation response. Deletion of HBB in human erythroid progenitor cells resulted in increased ROS levels and production of oxidative stress, which led to an increased rate of apoptosis. Furthermore, in response to oxidative stress, slower cell cycle progression and proliferation were observed. In addition, stress erythropoiesis was initiated leading to increased intracellular HBG1/2 expression. This molecular model was also validated in the single-cell transcriptome of hematopoietic stem cells from β-hemoglobinopathy patients. These findings further the understanding of HBG1/2 gene regulatory networks and provide novel clinical insights into β-thalassemia phenotypic diversity.

Topics & Concepts

BiologyTranscriptomeContext (archaeology)Oxidative stressPopulationErythropoiesisProgenitor cellCell biologyGeneticsMolecular biologyStem cellGene expressionGeneMedicineInternal medicineEndocrinologyAnemiaPaleontologyEnvironmental healthHemoglobinopathies and Related DisordersEpigenetics and DNA MethylationErythrocyte Function and Pathophysiology
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