1. Alterations in gene expression and microbiome composition upon calcium-sensing receptor deletion in the mouse esophagus.
- Author
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Abdulnour-Nakhoul, Solange M., Kolls, Jay K., Flemington, Erik K., Ungerleider, Nathan A., Nakhoul, Hani N., Song, Kejing, and Nakhoul, Nazih L.
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CALCIUM-sensing receptors ,GENE expression ,KNOCKOUT mice ,G protein coupled receptors ,TIGHT junctions ,GENE expression profiling ,CELL cycle proteins - Abstract
The calcium-sensing receptor (CaSR), a G protein-coupled receptor, regulates Ca
2+ concentration in plasma by regulating parathyroid hormone secretion. In other tissues, it is reported to play roles in cellular differentiation and migration and in secretion and absorption. We reported previously that CaSR can be conditionally deleted in the mouse esophagus. This conditional knockout (KO) (Eso CaSR-/- ) model showed a significant reduction in the levels of adherens and tight junction proteins and had a marked buildup of bacteria on the luminal esophageal surface. To further examine the role of CaSR, we used RNA sequencing to determine gene expression profiles in esophageal epithelia of control andEso CaSR-/- mice RNA Seq data indicated upregulation of gene sets involved in DNA replication and cell cycle inEso CaSR-/- . This is accompanied by the downregulation of gene sets involved in the innate immune response and protein homeostasis including peptide elongation and protein trafficking. Ingenuity pathway analysis (IPA) demonstrated that these genes are mapped to important biological networks including calcium and Ras homologus A (RhoA) signaling pathways. To further explore the bacterial buildup inEso CaSR-/- esophageal tissue, 16S sequencing of the mucosal-associated bacterial microbiome was performed. Three bacterial species, g_Rodentibacter, s_Rodentibacter_unclassified, and s_Lactobacillus_hilgardi were significantly increased inEso CaSR-/- . Furthermore, metagenomic analysis of 16S sequences indicated that pathways related to oxidative phosphorylation and metabolism were downregulated inEso CaSR-/- tissues. These data demonstrate that CaSR impacts major pathways of cell proliferation, differentiation, cell cycle, and innate immune response in esophageal epithelium. The disruption of these pathways causes inflammation and significant modifications of the microbiome. [ABSTRACT FROM AUTHOR]- Published
- 2024
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