Abstract
In a number of human cancer cells, K-RAS is frequently mutated and activated constitutively, culminating in the induction of continuous cell growth, a hallmark of cancer cells. It is still unclear, however, how the mutated K-RAS induces morphological abnormalities in cancerous tissues. To investigate the mechanism underlying the K-RAS-induced morphological changes, we utilized an auxin-dependent protein expression system, which enabled us to rapidly induce and evaluate constitutively active K-Ras in MDCK (Madin-Darby canine kidney) cysts, a model for polarized epithelial structure. Cells carrying the constitutively active KRasV12 gene were morphologically indistinguishable from normal cells in two-dimensional culture. However, in a gel of extracellular matrix, KRasV12-expressing cells failed to form a spherical cyst. When KRasV12 induction was delayed until after cyst formation, some cells in the cyst wall lost polarity and were extruded into and accumulated in the luminal space. With effector-specific mutants of KRasV12 and inhibitors for MEK and PI3-kinase, we found that both the Raf-MEK-ERK and PI3-kinase axes are necessary and sufficient for this phenotype. Live cell imaging with cell cycle indicators showed that KRasV12 expression promoted cell cycle progression, which was prevented by either MEK or PI3-kinase inhibitors. From these results, we provide a model wherein active-Ras induces cell cycle progression leading to apical cell extrusion through Raf and PI3-kinase in a cooperative manner. The system developed here can be applied to drug screening for various cancers originating from epithelial cells.
Highlights
How the activated Ras oncoprotein induces morphological anomalies in three-dimensional conditions remains unknown
MDCK-TIR1 cells were infected with a retrovirus carrying the auxin-inducible degron (AID)-KRasV12 to establish MDCK-KRasV12 cell lines, which were passaged in the presence of naphthaleneacetic acid (NAA) [7]
We have shown that expression of oncogenic KRasV12 in MDCK cells within a mature cyst structure causes luminal cell filling by perturbation of apico-basal polarity and acceleration of cell cycle progression
Summary
How the activated Ras oncoprotein induces morphological anomalies in three-dimensional conditions remains unknown. In a number of human cancer cells, K-RAS is frequently mutated and activated constitutively, culminating in the induction of continuous cell growth, a hallmark of cancer cells It is still unclear, how the mutated K-RAS induces morphological abnormalities in cancerous tissues. Live cell imaging with cell cycle indicators showed that KRasV12 expression promoted cell cycle progression, which was prevented by either MEK or PI3-kinase inhibitors From these results, we provide a model wherein active-Ras induces cell cycle progression leading to apical cell extrusion through Raf and PI3-kinase in a cooperative manner. In the course of progression to PDAC, each PanIN stage is associated with increasingly frequent mutations in canonical oncogenes and tumor suppressor genes, such as K-RAS (90 –100%), p16INK4a (90 –95%), p53 (50 – 85%), DPC4/SMAD4 (50%), and BRCA2 (10%). Live cell imaging revealed that activated Ras accelerated cell cycle progression, leading to cell extrusion into the lumen
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