Denatonium induces secretion of glucagon-like peptide-1 through activation of bitter taste receptor pathways

Normal epithelial cells exert their competitive advantage over RasV12-transformed cells and eliminate them into the apical lumen via cell competition. However, the internal or external factors that compromise cell competition and provoke carcinogenesis remains unknown. In this study, we examined the effect of sequential accumulation of gene mutations, mimicking multi-sequential carcinogenesis on RasV12-induced cell competition in intestinal epithelial tissues. Consequently, we found that directionality of RasV12-cell extrusion in Wnt-activated epithelia is reversed, and transformed cells are delaminated into the basal lamina via non-cell autonomous MMP21 upregulation. Subsequently, diffusively infiltrating, transformed cells develop into highly invasive carcinomas. Elevated production of MMP21 is elicited partly through NF-κB signaling, blockage of which restores apical elimination of RasV12 cells. We further found that the NF-κB-MMP21 axis is significantly bolstered in early colorectal carcinoma in humans. Collectively, this study shows that cells with high mutational burdens exploit cell competition for their benefit by behaving as unfit cells, endowing them with an invasion advantage.

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Autophagic perturbation caused by reduced lysosomal activity positively regulates cell competition

Akter

Kon

2022

Autophagy

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Eilma Akter

Non-degradable autophagic vacuoles are indispensable for cell competition

Autophagic Perturbation Caused by Reduced Lysosomal Activity Is Indispensable for Cell Competition

Wnt activation-induced disturbance of cell competition causes diffuse invasion of transformed cells through upregulation of NF-κB-mediated MMP21

Autophagic perturbation caused by reduced lysosomal activity positively regulates cell competition

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