The P2X7 Receptor Promotes Colorectal Inflammation and Tumorigenesis by Modulating Gut Microbiota and the Inflammasome.
Claudio BernardazziMorgana Teixeira Lima Castelo-BrancoBeatriz PêgoBeatriz Elias RibeiroSiane Lopes Bittencourt RosasPatrícia Teixeira SantanaJoão Carlos MachadoCamille LealFabiano ThompsonRobson Coutinho-SilvaHeitor Siffert Pereira de SouzaPublished in: International journal of molecular sciences (2022)
Background: Given the role of the P2X7 receptor (P2X7R) in inflammatory bowel diseases (IBD), we investigated its role in the development and progression of colitis-associated colorectal cancer (CA-CRC). Methods: CA-CRC was induced in P2X7R +/+ and P2X7R -/- mice with azoxymethane (AOM) combined with dextran sodium sulfate (DSS). In a therapeutic protocol, P2X7R +/+ mice were treated with a P2X7R-selective inhibitor (A740003). Mice were evaluated with follow-up video endoscopy with endoluminal ultrasound biomicroscopy. Colon tissue was analyzed for histological changes, densities of immune cells, expression of transcription factors, cytokines, genes, DNA methylation, and microbiome composition of fecal samples by sequencing for 16S rRNA. Results: The P2X7R +/+ mice displayed more ulcers, tumors, and greater wall thickness, than the P2X7R -/- and the P2X7R +/+ mice treated with A740003. The P2X7R +/+ mice showed increased accumulation of immune cells, production of proinflammatory cytokines, activation of intracellular signaling pathways, and upregulation of NLRP3 and NLRP12 genes, stabilized after the P2X7R-blockade. Microbial changes were observed in the P2X7R -/- and P2X7R +/+ -induced mice, partially reversed by the A740003 treatment. Conclusions: Regulatory mechanisms activated downstream of the P2X7R in combination with signals from a dysbiotic microbiota result in the activation of intracellular signaling pathways and the inflammasome, amplifying the inflammatory response and promoting CA-CRC development.
Keyphrases
- high fat diet induced
- signaling pathway
- dna methylation
- inflammatory response
- transcription factor
- genome wide
- insulin resistance
- type diabetes
- oxidative stress
- gene expression
- cell proliferation
- computed tomography
- endothelial cells
- mass spectrometry
- binding protein
- toll like receptor
- single cell
- lipopolysaccharide induced
- protein kinase
- reactive oxygen species
- diabetic rats
- lps induced
- atomic force microscopy