SATB1 Regulates GATA1 Protein Expression in Early Hematopoiesis and Is Deregulated in Diamond Blackfan Anemia

The induction of the master erythroid transcription factor, GATA1 during early erythropoiesis is critical for efficient red blood cell production. However, GATA1 is expressed at low levels in hematopoietic stem cells (HSCs) and is moderately induced at both the common myeloid progenitor (CMP) and megakaryocyte/erythroid progenitor (MEP) stages prior to lineage commitment. Diamond Blackfan Anemia is a rare disease, usually associated with ribosomal gene mutations, leading to significant decrease in GATA1 expression and block in early committed erythroid differentiation. Mild defects in other myeloid lineages are also observed, with limited clinical relevance. The importance of GATA1 downregulation in disease pathogenesis is manifested by rare patients with DBA carrying GATA1 mutations. To understand signaling pathways that contribute to the pathogenesis DBA, we perform RNA-seq with mRNA from human CD34+ fetal liver cells and found that the chromatin organizer, Special AT-rich sequence binding protein 1 (SATB1) was prematurely downregulated. Our results further demonstrated that sustained SATB1 expression is critical to maintain required levels of GATA1 protein at both the CMP and MEP stages of differentiation, but not in committed erythroid progenitors. In mice, SATB1 is modestly expressed in HSCs and upregulated during lymphopoiesis. SATB1 is downregulated during myeloid and erythroid differentiation and antagonizes myeloid and erythroid expansion. However, in human hematopoietic stem and progenitor cells (HSPCs), SATB1 is required for efficient expansion of these lineages. SATB1 maintains 78% expression in human MEPs, but is undetectable in early committed erythroid progenitors. In RPS19-insufficient human HSPCs, SATB1 was downregulated to 22% in MEPs (p=0.02). Re-expression of SATB1 corrected a significant subset of deregulated mRNAs, including GATA1 regulators. In the absence of SATB1, one such GATA1 regulator, heat shock protein 70 (HSP70), failed to be induced in ribosome-competent human MEPs, reducing GATA1 protein expression by 35.7% (p= 0.026). Concurrently, MEP expansion was inhibited by 64.5% (p=0.023), reducing erythroid and megakaryocyte expansion by 18.2% (p=0.024) and 20.4% (p=0.183) respectively. SATB1 facilitated the formation of chromatin loops linking together an enhancer element with HSP70 promoters required for HSP70 induction in early differentiation. Although GATA1 is significantly upregulated in committed erythroid progenitors, RPS19