Organ Size Control Is Dominant over Rb Family Inactivation to Restrict Proliferation In Vivo

•Proliferation upon loss of the Rb family is only transient in hepatocytes in vivo•Partial hepatectomy reverts the cell-cycle arrest in Rb family mutant hepatocytes•Sustained YAP activity is limiting for prolonged proliferation in hepatocytes•Liver progenitor cells do not obey the same cell-cycle regulatory mechanisms

SummaryIn mammals, a cell’s decision to divide is thought to be under the control of the Rb/E2F pathway. We previously found that inactivation of the Rb family of cell cycle inhibitors (Rb, p107, and p130) in quiescent liver progenitors leads to uncontrolled division and cancer initiation. Here, we show that, in contrast, deletion of the entire Rb gene family in mature hepatocytes is not sufficient for their long-term proliferation. The cell cycle block in Rb family mutant hepatocytes is independent of the Arf/p53/p21 checkpoint but can be abrogated upon decreasing liver size. At the molecular level, we identify YAP, a transcriptional regulator involved in organ size control, as a factor required for the sustained expression of cell cycle genes in hepatocytes. These experiments identify a higher level of regulation of the cell cycle in vivo in which signals regulating organ size are dominant regulators of the core cell cycle machinery.

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