Synergistic roles of DYRK1A and GATA1 in trisomy 21 megakaryopoiesis
Ying Ting Sit, … , Deborah L. French, Stella T. Chou
Ying Ting Sit, … , Deborah L. French, Stella T. Chou
Published October 31, 2023
Citation Information: JCI Insight. 2023;8(23):e172851. https://doi.org/10.1172/jci.insight.172851.
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Research Article Hematology

Synergistic roles of DYRK1A and GATA1 in trisomy 21 megakaryopoiesis

Abstract

Patients with Down syndrome (DS), or trisomy 21 (T21), are at increased risk of transient abnormal myelopoiesis (TAM) and acute megakaryoblastic leukemia (ML-DS). Both TAM and ML-DS require prenatal somatic mutations in GATA1, resulting in the truncated isoform GATA1s. The mechanism by which individual chromosome 21 (HSA21) genes synergize with GATA1s for leukemic transformation is challenging to study, in part due to limited human cell models with wild-type GATA1 (wtGATA1) or GATA1s. HSA21-encoded DYRK1A is overexpressed in ML-DS and may be a therapeutic target. To determine how DYRK1A influences hematopoiesis in concert with GATA1s, we used gene editing to disrupt all 3 alleles of DYRK1A in isogenic T21 induced pluripotent stem cells (iPSCs) with and without the GATA1s mutation. Unexpectedly, hematopoietic differentiation revealed that DYRK1A loss combined with GATA1s leads to increased megakaryocyte proliferation and decreased maturation. This proliferative phenotype was associated with upregulation of D-type cyclins and hyperphosphorylation of Rb to allow E2F release and derepression of its downstream targets. Notably, DYRK1A loss had no effect in T21 iPSCs or megakaryocytes with wtGATA1. These surprising results suggest that DYRK1A and GATA1 may synergistically restrain megakaryocyte proliferation in T21 and that DYRK1A inhibition may not be a therapeutic option for GATA1s-associated leukemias.

Authors

Ying Ting Sit, Kaoru Takasaki, Hyun Hyung An, Yan Xiao, Christian Hurtz, Peter A. Gearhart, Zhe Zhang, Paul Gadue, Deborah L. French, Stella T. Chou

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Figure 5

T21/GATA1s/DYRK1A–/–/– megakaryocytes demonstrate enhanced cell proliferation and decreased platelet signaling.

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T21/GATA1s/DYRK1A–/–/– megakaryocytes demonstrate enhanced cell prolifer...
Flow cytometry–sorted T21/GATA1s/DYRK1A+/+/+ and DYRK1A–/–/– CD41+CD43+CD235+ progenitors or CD41+CD42b+ megakaryocytes on day 4 of megakaryocyte liquid culture for RNA analyses. (A) Volcano plots showing differential gene expression for T21/GATA1s/DYRK1A–/–/– compared with DYRK1A+/+/+. Each dot represents 1 gene, with gating of the dot reflecting the clustering information for each gene; dots gated in red squares are genes that are upregulated compared with DYRK1A+/+/+; dots gated in blue square are genes that are downregulated compared with DYRK1A+/+/+. (B) Up- and downregulated pathways from gene set enrichment analysis (GSEA) of RNA-seq data. (C) GSEA for indicated pathways comparing DYRK1A–/–/– to DYRK1A+/+/+. NES, normalized enrichment score; FDR, false discovery rate. (D) Relative mRNA expression levels for CCND1, CCND2, GATA2, and E2F target genes. (E) Relative mRNA expression levels for megakaryocyte-related genes. n = 5–7 independent experiments per genotype. Data represent the mean ± SEM. Statistical significance was determined by 2-tailed, unpaired t test. *P ≤ 0.05, **P ≤ 0.01, ****P ≤ 0.0001.