Abstract
c-Myc is a proto-oncoprotein that regulates various cellular processes and whose abnormal expression leads to tumorigenesis. c-Myc protein stability has been shown to be predominantly controlled by the ubiquitin ligase (E3) CRL1Fbxw7 in a manner dependent on glycogen synthase kinase 3 (GSK3)-mediated phosphorylation. Here we show that, in some types of cancer cells, c-Myc degradation is largely insensitive to the GSK3 inhibitor (GSK3i) CHIR99021, suggesting the existence of an E3 other than CRL1Fbxw7 for c-Myc degradation. Mass spectrometry identified CRL2KLHDC3 as such an E3. In GSK3i-insensitive cancer cells, combined depletion of Fbxw7 and KLHDC3 resulted in marked stabilization of c-Myc, suggestive of a cooperative action of Fbxw7 and KLHDC3. Furthermore, transplantation of such cells deficient in both Fbxw7 and KLHDC3 into immunodeficient mice gave rise to larger tumors compared with those formed by cells lacking only Fbxw7. GSK3i-insensitive pancreatic cancer cells expressed lower levels of SHISA2, a negative regulator of the Wnt signaling pathway, than did GSK3i-sensitive cells. KLHDC3 mRNA abundance was associated with prognosis in pancreatic cancer patients with a low level of SHISA2 gene expression. These results suggest that KLHDC3 cooperates with Fbxw7 to promote c-Myc degradation in a subset of cancer cells with low GSK3 activity.
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