Direct conversion of cardiac fibroblasts into endothelial-like cells using Sox17 and Erg.
Gregory FarberYanhan DongQiaozi WangMitesh RathodHao Fei WangMichelle DixitBenjamin KeepersYifang XieKendall ButzWilliam J PolacheckJiandong LiuLi QianPublished in: Nature communications (2024)
Endothelial cells are a heterogeneous population with various organ-specific and conserved functions that are critical to organ development, function, and regeneration. Here we report a Sox17-Erg direct reprogramming approach that uses cardiac fibroblasts to create differentiated endothelial cells that demonstrate endothelial-like molecular and physiological functions in vitro and in vivo. Injection of these induced endothelial cells into myocardial infarct sites after injury results in improved vascular perfusion of the scar region. Furthermore, we use genomic analyses to illustrate that Sox17-Erg reprogramming instructs cardiac fibroblasts toward an arterial-like identity. This results in a more efficient direct conversion of fibroblasts into endothelial-like cells when compared to traditional Etv2-based reprogramming. Overall, this Sox17-Erg direct reprogramming strategy offers a robust tool to generate endothelial cells both in vitro and in vivo, and has the potential to be used in repairing injured tissue.
Keyphrases
- endothelial cells
- high glucose
- transcription factor
- stem cells
- left ventricular
- extracellular matrix
- vascular endothelial growth factor
- acute myocardial infarction
- acute lymphoblastic leukemia
- copy number
- computed tomography
- magnetic resonance imaging
- magnetic resonance
- coronary artery disease
- oxidative stress
- genome wide