Martell, Danya J., Merens, Hope E., Caulier, Alexis, Fiorini, Claudia, Ulirsch, Jacob C., Ietswaart, Robert, Choquet, Karine, Graziadei, Giovanna, Brancaleoni, Valentina, Cappellini, Maria Domenica, Scott, Caroline, Roberts, Nigel, Proven, Melanie, Roy, Noémi B.A., Babbs, Christian, Higgs, Douglas R., Sankaran, Vijay G., and Churchman, L. Stirling
Controlled release of promoter-proximal paused RNA polymerase II (RNA Pol II) is crucial for gene regulation. However, studying RNA Pol II pausing is challenging, as pause-release factors are almost all essential. In this study, we identified heterozygous loss-of-function mutations in SUPT5H , which encodes SPT5, in individuals with β-thalassemia. During erythropoiesis in healthy human cells, cell cycle genes were highly paused as cells transition from progenitors to precursors. When the pathogenic mutations were recapitulated by SUPT5H editing, RNA Pol II pause release was globally disrupted, and as cells began transitioning from progenitors to precursors, differentiation was delayed, accompanied by a transient lag in erythroid-specific gene expression and cell cycle kinetics. Despite this delay, cells terminally differentiate, and cell cycle phase distributions normalize. Therefore, hindering pause release perturbs proliferation and differentiation dynamics at a key transition during erythropoiesis, identifying a role for RNA Pol II pausing in temporally coordinating the cell cycle and erythroid differentiation. [Display omitted] • Mutations in SUPT5H reduced β-globin synthesis and disrupted RNA Pol II pausing • RNA Pol II pausing is dynamic during human erythropoiesis • RNA Pol II pause release couples cell cycle and differentiation dynamics • Pausing impacts the rate of cell-state transitions during erythroid differentiation In this study, Martell et al. discovered that mutations in SUPT5H , a general transcription factor, decreased β-globin production and disrupted RNA Pol II pausing during human erythroid differentiation. They identified that controlled RNA Pol II pause release coordinates cell cycle and differentiation dynamics, governing the pace of cell-state transitions during erythropoiesis. [ABSTRACT FROM AUTHOR]