Generation of Fanconi Anemia iPSC Clones By Addition of a Small Molecule Inhibitor of p53 during Reprogramming

Fanconi anemia (FA) is an inherited bone marrow failure syndrome characterized by loss of function mutations in any of at least 22 FANC genes that are critical for DNA repair. Progressive loss of hematopoietic stem/progenitor cells (HSPCs) in FA patients has been attributed in part to a heightened p53/p21 axis that restricts the cell cycle to G0/G1 in response to accumulation of unresolved DNA damage and replicative stress. Silencing of p53 was previously shown to rescue HSPC defects in FA models in vitro and in vivo. Due to insufficient numbers of primary HSPCs in FA for disease modeling and cell therapies, the concept of generating induced pluripotent stem cells (iPSCs) from an individual patient, and differentiating the FA-iPSCs into a theoretically infinite supply of autologous HSPCs arose. However, reprogramming FA cells has proven to be challenging and mostly dependent on hypoxic culture conditions or genetic complementation of the defect by integrating lentiviral vectors expressing a normal FANC gene. A recent study reported low-efficiency generation of integration-free FA-iPSCs by electroporation of fibroblasts with episomal plasmid vectors expressing both reprogramming factors and p53 shRNA. Here we sought to develop an improved and streamlined reprogramming strategy for FA by transduction of readily accessible FA mononuclear cells (MNCs) with commercially available non-integrating reprogramming Sendai Viruses (SeV2), combined with a more adaptable inhibition of the ...
Source: Blood - Category: Hematology Authors: Tags: 508. Bone Marrow Failure: Poster III Source Type: research