A signalling axis involving CNOT3, Aurora B and ERK promotes differentiation and survival of mesendodermal progenitor cells

Mesendoderm cells are key intermediate progenitors that form at the early primitive streak (PrS) and give rise to mesoderm and endoderm in the gastrulating embryo. We have identified an interaction between CNOT3 and the cell cycle kinase Aurora B, which requires sequences in the NOT box domain of CNOT3, and regulates MAPK/ERK signalling during mesendoderm differentiation. Aurora B phosphorylates CNOT3 at two sites located close to a nuclear localization signal and promotes localization of CNOT3 to the nuclei of mouse ES cells (ESCs) and metastatic lung cancer cells. ESCs that have both sites mutated give rise to embryoid bodies that are largely devoid of mesoderm and endoderm and are composed mainly of ectoderm. The mutant ESCs are also compromised in their ability to differentiate into mesendoderm in response to FGF2, BMP4 and Wnt3. The double mutation affects interaction of CNOT3 with Aurora B and with ERK and reduces phosphorylation of ERK in response to FGF2, impacting on survival of the differentiated ME cells. Our results identify an adaptor function for CNOT3 that regulates a key pathway in embryogenesis and cancer.