p38gamma MAPK signaling promotes intestinal tumorigenesis
Medical College Of Wisconsin, Milwaukee WI
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Abstract
Colorectal cancer (CRC) is the second leading cause of malignant-associated death in the USA with inflammation as a key driving force for its development, growth, and progression. p38ï§, a member of p38 mitogen-activated protein kinases (p38 MAPKï¡ï¬ ï¢ï¬ ï§, and ï¤), is oncogenic, pro-inflammatory, and overexpressed in clinical CRC but the role of epithelial p38ï§ in CRC tumorigenesis has not been tested. ï¢- catenin, a critical cofactor of Wnt transcription, is aberrantly activated in 90% of CRC. And yet, ï¢-catenin is undruggable and there is thus an urgent need to identify druggable ï¢-catenin activators for therapeutic intervention. Here we propose that p38ï§ MAPK in intestinal epithelial cells (IEC) drives CRC tumorigenesis by stimulating oncogenic ï¢-catenin phosphorylation. This hypothesis is based on our preliminary studies showing that: 1) inflammation coordinately stimulates p38ï§ and ï¢-catenin phosphorylation in CRC cells; 2) p38ï§ directly phosphorylates ï¢-catenin at S605, which increases ï¢-catenin stability, the ï¢-catenin-TCF4 interaction, Wnt transcription and CRC growth; 3) inflammation activates p38ï§, but not p38ï¡, in intestinal tissues of mice, and IEC-specific p38ï§ knockout (KO) reduces pro-inflammatory cytokine expression and attenuates colitis severity; 4) IEC p38ï§ KO inhibits colon tumorigenesis and p-ï¢-catenin/S605/Wnt signaling in the azoxymethane (AOM)/dextran sodium sulfate (DSS) mouse model of colitis-associated cancer (CAC); 5) the p38ï§ pharmacological inhibitor pirfenidone (PFD) suppresses ï¢-catenin/cytokine expression and colon tumorigenesis in wild-type (WT) mice, but not in p38ï§ KO mice, and further collaborates with the ï¢-catenin-TCF4 interaction antagonist LF3 and chemotherapeutic drug 5FU to inhibit CRC growth, and 6) p38ï§ is upregulated in clinical CAC specimens and in intestinal tissues of Apcmin and interleukin-10 knockout (IL-10-/-) mice. These results together indicate that IEC p38ï§ is required for tumorigenesis of both CAC and sporadic CRC by stimulating oncogenic ï¢-catenin phosphorylation. Using genetic and pharmacological approaches, we will test this hypothesis by determining (1) if p38ï§- induced ï¢-catenin/S605 phosphorylation stimulates ï¢-catenin nuclear translocation, ï¢-catenin-TCF4 interaction, Wnt transcription and CRC growth; (2) if IEC-specific p38ï§ KO blocks tumorigenesis in IL- 10-/- and Apcmin mice and if p38ï§ is essential for the ï¢-catenin/TCF4/Wnt signaling to promote malignant progression in CRC pathogenesis; and (3) if the p38ï§ pharmacological inhibitor pirfenidone (PFD) blocks CRC tumorigenesis and increases the growth-inhibitory activity of LF3 and 5FU by disrupting the p38ï§/ï¢-catenin/TCF4/Wnt pathway. Upon completion, these studies will demonstrate if epithelial p38ï§ promotes CRC tumorigenesis by stimulating oncogenic ï¢-catenin/S605 phosphorylation and Wnt transcription. Demonstrating the effectiveness of PFD in inhibiting Wnt signaling and CRC tumorigenesis by targeting intestinal epithelial p38ï§ will reveal that drugging p38ï§ has a great potential for colon cancer targeted therapy.
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