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Identification of novel γ-globin inducers among all potential erythroid druggable targets. | LitMetric

AI Article Synopsis

  • - Human γ-globin is primarily produced in the fetal liver and can help treat blood disorders like sickle cell disease, but both genes responsible for γ-globin are silenced after birth.
  • - Researchers created a CRISPR library to find genes that suppress fetal hemoglobin (HbF) and discovered new targets, including VHL and PTEN, which can potentially be targeted with drugs.
  • - Deleting VHL and PTEN led to increased HbF production through activating specific pathways, and small-molecule inhibitors of these genes showed promise in boosting HbF in both normal and diseased blood cells.

Article Abstract

Human γ-globin is predominantly expressed in fetal liver erythroid cells during gestation from 2 nearly identical genes, HBG1 and HBG2, that are both perinatally silenced. Reactivation of these fetal genes in adult red blood cells can ameliorate many symptoms associated with the inherited β-globinopathies, sickle cell disease, and Cooley anemia. Although promising genetic strategies to reactivate the γ-globin genes to treat these diseases have been explored, there are significant barriers to their effective implementation worldwide; alternatively, pharmacological induction of γ-globin synthesis could readily reach the majority of affected individuals. In this study, we generated a CRISPR knockout library that targeted all erythroid genes for which prospective or actual therapeutic compounds already exist. By probing this library for genes that repress fetal hemoglobin (HbF), we identified several novel, potentially druggable, γ-globin repressors, including VHL and PTEN. We demonstrate that deletion of VHL induces HbF through activation of the HIF1α pathway and that deletion of PTEN induces HbF through AKT pathway stimulation. Finally, we show that small-molecule inhibitors of PTEN and EZH induce HbF in both healthy and β-thalassemic human primary erythroid cells.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9198928PMC
http://dx.doi.org/10.1182/bloodadvances.2021006802DOI Listing

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