Modeling Marrow Failure and MDS for Novel Therapeutics

Abstract

Clonal evolution is a potentially life threatening long-term complication of inherited and acquired bone marrow failure (BMF) disorders. Cytogenetic clonal abnormalities develop in approximately 10 percent of patients with acquired aplastic anemia. The risk of early progression to myelodysplastic syndrome (MDS) and leukemia is also markedly elevated in patients with inherited marrow failure syndromes compared to age-matched controls. Prognosis of different clonal abnormalities is variable. Somatically acquired clonal deletions of one copy of chromosome 7 (monosomy 7) or part of the long arm of chromosome 7 (del7q) are generally associated with a poor prognosis. Deletions involving chromosome 7 are frequently associated with therapy-related MDS, hypocellular MDS, MDS arising in children, and in MDS arising in patients with marrow failure. The goal of this project is to model monosomy 7 arising in marrow failure by utilizing induced pluripotent stem cells (iPSC) derived from patients with the inherited marrow failure/leukemia predisposition syndrome Shwachman-Diamond syndrome (SDS) into which a deletion of the MDS-associated region of 7q has been genomically engineered. We will perform functional genomic screens to identify genes and molecular pathways with synthetic lethality for the del7q clone. These studies will provide a platform for the development of new strategies to treat monosomy 7 clonal disease arising from marrow failure.

Document Details

Document Type

Technical Report

Publication Date

May 01, 2018

Accession Number

AD1058225

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