Kavli Affiliate: Aniruddha Das
| Authors: Jacqueline Salotti, Nida Asif, Srikanta Basu, Aniruddha Das, Mei Yang, Baktiar Karim, Karen Saylor, Nancy Martin, David A Scheiblin, Sweta Misra, Brian Luke, Thorkell Andresson, Stephen Lockett, Lino Tessarollo and Peter F Johnson
| Summary:
C/EBPβ is a potent regulator of oncogene-induced senescence (OIS) and the SASP. C/EBPβ is post-translationally activated in OIS cells by the effector kinases ERK1/2 and CK2. However, in tumor cells C/EBPβ activation is suppressed by its 3’UTR. 3′UTR regulation of protein activity (UPA) requires a G/U-rich element (GRE) and its cognate binding protein, HuR. These components segregate CEBPB transcripts away from a perinuclear compartment harboring ERK1/2 and CK2, restricting C/EBPβ from its activating kinases. We report here that the mRNA decay proteins UPF1 and Staufen1/2 are essential UPA factors enriched within the perinuclear cytoplasm. STAU1/2 and UPF1 overlap with CK2 on perinuclear signaling endosomes where they promote localized CEBPB mRNA decay. UPF1 or STAU1/2 depletion in tumor cells increased CEBPB transcripts adjacent to CK2 foci, coinciding with C/EBPβ activation and senescence. The GRE and an adjacent STAU binding site independently suppress C/EBPβ-mediated senescence, while a distinct 3’UTR region inhibits its SASP-inducing activity. KrasG12D-driven lung tumors in mice carrying a Cebpb GRE deletion rarely progressed to malignant adenocarcinomas, demonstrating the importance of UPA to enable tumor progression in vivo. Thus, kinase-proximal mRNA decay is a novel mechanism that inhibits C/EBPβ activation in tumor cells to facilitate senescence bypass.