Hematopoietic Cell Fate Reprogramming in the Context of Pathological Processes and Translational Opportunities
Branko Cirovic
The hematopoietic system consists of well-characterized lineages that provide a diverse repertoire of cell subsets and highly specialized immune functions. This review summarizes the key characteristics and criteria that define hematopoietic cell fate conversion. Perturbation of lineage-specific transcription factors can enable cell fate reprogramming through transdifferentiation, dedifferentiation, or lineage diversion. Members of the CCAAT/enhancer binding protein family of transcription factors, which efficiently convert B cells into macrophages and neutrophils, serve here as a prime example for illustrating the underlying molecular processes. In addition, this review explores disease-associated phenomena, such as lineage infidelity in leukemia, and highlights novel therapeutic strategies that employ fate conversion. Controlled reprogramming systems can also serve as scalable and robust