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Hematopoiesis in Down Syndrome iPS cells: Correction by Chromosome 21 Silencing

$291,450R01FY2015DKNIH

Univ Of Massachusetts Med Sch Worcester, Worcester MA

Investigators

Abstract

DESCRIPTION (provided by applicant): Many children with DS (trisomy 21) develop hematological abnormalities, ranging from mild to severe. Virtually all individuals with DS show signs of disordered hematopoiesis, including leukopenia, lymphopenia, and macrocytosis. Approximately 10% of DS infants develop a transient myeloproliferative disorder (TMD); 10- 30% later develop acute leukemia, most often acute megakaryoblastic leukemia (AMKL). Truncation mutations of the GATA1 transcription factor are consistently present in DS TMD and AMKL and its effects appear dependent upon constitutional trisomy 21 which itself causes a hyperproliferative state in multiple lineages. The pathways that underlie hematopoietic defects in DS patients are poorly understood. This proposal seeks to investigate hematopoiesis in DS, using a highly novel method of chromosome therapy by site-specific targeting of a human XIST (X-inactive specific transcript) transgene to silence the entire trisomic chromosome 21 (Chr21) in DS induced pluripotent stem (iPS) cells. This system, already in hand, provides rapid and robust silencing of Chr 21 genes, thus allowing direct comparison of parallel cultures of otherwise identical DS stem cells, with and without over-expression of Chr21 genes. Specific Aim: How does whole chromosome silencing of the trisomic Chr21 in DS iPS cells correct the hematopoietic defects of DS? We will address this question in 3 subaims: Subaim A. We will determine whether silencing of trisomic Chr21 corrects the abnormal in vitro hematopoietic phenotype of DS. We will measure production of hematopoietic progenitor and mature cells from human DS iPS cells, with and without doxycycline induction of a Chr21-targeted XIST transgene, using flow cytometry and hematopoietic colony assays. Subaim B. We will determine whether silencing of trisomic Chr21 affects expression of Chr21 and non- Chr21 genes. We will examine the transcriptome of corrected and uncorrected DS hematopoietic cells by high-throughput RNA sequencing and analyze gene expression pathways associated with the hematopoietic phenotype identified in subaim A. Subaim C. We will determine whether GATA1s expression induces Chr21-dependent myeloproliferation and gene expression in DS iPS cells. Wild type GATA1 will be replaced by a knock-in GATA1s allele in DS iPS cells with inducible Chr21 silencing. The phenotype and gene expression profile will be analyzed in trisomic versus disomic GATA1s hemizygous hematopoietic progenitors to determine the effect of combined trisomy 21 and GATA1 truncation on the networks identified in subaim B. This focused, high-impact study should provide a proof of principle for a novel form of chromosomal therapy potentially applicable to hematopoietic and other complications of DS. The proposed experiments should also identify potential therapeutic targets for treatment or prevention of DS hematopoietic defects.

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