Dedifferentiation

Dedifferentiation (pronounced dē-ˌdi-fə-ˌren-chē-ˈā-shən) is a transient process by which cells become less specialized and return to an earlier cell state within the same lineage. This suggests an increase in cell potency, meaning that, following dedifferentiation, a cell may possess the ability to re-differentiate into more cell types than it did prior to dedifferentiation. This is in contrast to differentiation, where differences in gene expression, morphology, or physiology arise in a cell, making its function increasingly specialized. The loss of specialization observed in dedifferentiation can be noted through changes in gene expression, physiology, function witin the organism, proliferative activity, or morphology. While it can be induced in a laboratory setting through processes like direct reprogramming and the production of induced pluripotent stem cells, endogenous dedifferentiation processes also exist as a component of wound healing mechanisms. References to dedifferentiation can be found as far back as 1915, where Charles Manning Child described dedifferentiation as a “return or approach to the embryonic or undifferentiated condition”. While Manning's research was in reference to plants, it helped establish the foundation for our modern day understanding of dedifferentiation and cell plasticity. Just as plant cells respond to injury by undergoing callus formation via dedifferentiation, some animal models dedifferentiate their cells to form blastema, which are analogous to plant calluses, after limb amputation. In the 1940s C. H. Waddington created the “Epigenetic Landscape”, a diagrammatic representation of cell fate from less differentiated to more differentiated cell types. Here, the concept of a marble moving downhill through various paths is used to represent cell decision-making and cell potency, thus visualizing how cells can take different paths of differentiation to reach a final state. Dedifferentiation would be represented by the marble moving uphill through the pathways it has already taken, until it settles somewhere above the most downhill location.