7th November, 2014. Second day of the 13th CRG Symposium

The second and last day of this CRG Symposium was focused on Cell Reprogramming, Aging and Cancer. Many results were shown on the link between Senescence and Cancer. Senescence has been shown to prevent and promote tumorigenesis. These results are not so paradoxical. Recent studies suggest that one of the outcomes of senescence is tissue re-organization, achieved via cell communication. To maintain homeostasis upon cellular stress organisms rely on cellular growth and cell division. During aging, cellular proliferation is blocked by senescence as an innate defense mechanism to prevent tumor formation. However, as organisms age, these processes are deregulated, leading to hyperplastic or degenerating diseases. In this context, new powerful tools were presented, which not only facilitate studies on the tumor progression in-vivo, but that strongly enhance the comprehension of the role of putative tumor-inducing factors through the regulation of their expression in an inducible and reversible manner.

A large and interesting part of this CRG Symposium was dedicated to the most promising results in the fields of Reprogramming of cellular identity. Many efforts have been made to define the culture conditions of embryonic stem cells that maintain the “naive” pluripotency of these cells in-vitro. However, the real “take home message” of this morning session was that reprogramming could be an in-vivo process. Groundbreaking results were presented suggesting that reprogramming to switch the identity of a cell is a process that could be achieved in a physiological context. Even if in principle, the differentiated state of a cell was thought to be locked and the differentiation process was thought to be an irreversible mechanism, cells could be forced to acquire a pluripotent phenotype within the tissue in which they reside. The evidence that liver regenerates not through the differentiation of existing stem cells but through the de-differentiation of mature hepatocytes that form a new pool of stem cells that in turn form new functional hepatic cells, give the message that the way back to a more immature state is a physiological process used within the body to regenerate tissues upon damages. 

 Daniela Sanges