JunD, not c-Jun, is the AP-1 transcription factor required for Ras-induced lung cancer.

The AP-1 transcription factor c-Jun is required for Ras-driven tumorigenesis in many tissues and is considered as a classical proto-oncogene. To determine the requirement for c-Jun in a mouse model of K-RasG12D-induced lung adenocarcinoma, we inducibly deleted c-Jun in the adult lung. Surprisingly, we found that inactivation of c-Jun, or mutation of its JNK phosphorylation sites, actually increased lung tumor burden. Mechanistically, we found that protein levels of the Jun family member JunD were increased in the absence of c-Jun. In c-Jun-deficient cells, JunD phosphorylation was increased, and expression of a dominant-active JNKK2-JNK1 transgene further increased lung tumor formation. Strikingly, deletion of JunD completely abolished Ras-driven lung tumorigenesis. This work identifies JunD, not c-Jun, as the crucial substrate of JNK signaling and oncogene required for Ras-induced lung cancer

F-box and WD repeat domain-containing 7 regulates intestinal cell lineage commitment and is a haploinsufficient tumor suppressor.

BACKGROUND and AIMS: The E3 ubiquitin ligase F-box and WD repeat domain-containing 7 (Fbw7) degrades several proto-oncogenes including c-Myc, cyclinE, Notch1, and c-Jun. Fbw7 is the fourth most frequently mutated gene in human colorectal carcinomas and has recently been described as a poor prognosis marker in human colorectal carcinoma; however, the molecular mechanism underlying fbw7 mutations in intestinal tumor suppression is unclear. METHODS: To address the role of fbw7 in intestinal homeostasis and tumorigenesis, we generated conditional knock-out mice lacking fbw7 in the intestine and evaluated the effect of fbw7 absence in normal intestinal homeostasis and in adenomatous polyposis coli-mediated tumorigenesis. In parallel, we analyzed a cohort of human tumors bearing mutations in fbw7. RESULTS: Fbw7 was found to be highly expressed in the transit-amplifying progenitor cell compartment, and its deletion resulted in impaired goblet cell differentiation and accumulation of highly proliferating progenitor cells. This function of Fbw7 was mirrored during tumor formation because absence of Fbw7 increased proliferation and decreased differentiation of tumors triggered by aberrant Wnt signalling. Fbw7 exhibited haploinsufficiency for intestinal tumor suppression. Biallelic fbw7 inactivation increased cellular proliferation in physiologic and pathologic conditions in a c-Jun-dependent manner. Increased Notch activity was also observed in human tumors carrying heterozygous fbw7 mutations, suggesting that fbw7 haploinsufficiency for antagonizing Notch activity is conserved between human and murine cancers. CONCLUSIONS: Fbw7 regulates intestinal biology and tumorigenesis by controlling the abundance of different substrates in a dose-dependent fashion, providing a molecular explanation for the heterozygous mutations of fbw7 observed in human colorectal carcinoma