Abstract

Aquaporin‐2 (AQP2) is a transmembrane protein expressed in the principal cells of the kidney collecting ducts, which mediate osmotic water reabsorption. AQP2 is regulated by the antidiuretic peptide hormone arginine vasopressin (AVP). When AVP binds to the vasopressin type 2 receptor (V2R) in the principal cells, it initiates a signaling network that results in 1) AQP2 trafficking to the apical plasma membrane for water transport and 2) AQP2 gene expression. In a previous study, we found that dexamethasone, a glucocorticoid receptor (GR) agonist, enhanced AVP‐induced AQP2 gene expression in the collecting duct cell model mpkCCD. Here, we showed that GR knockdown drastically decreased AVP‐induced AQP2 mRNA and protein levels, indicative of a role of GR in AVP‐induced AQP2 gene expression. We further showed that the 1,000bp region upstream to the AQP2 transcription start site was sufficient to mediate GR‐enhanced AVP‐induced promoter activity and that GR bound to the above AQP2 promoter region. RNA‐seq was used to profile the transcriptome of the GR knockdown vs. control cells. A total of 93,308 transcripts belonging to 22,025 genes were quantified. GR knockdown decreased expression of 5,266 genes and increased expression of 3,709 genes. These two gene groups respectively represent positive and negative regulators for the AVP responses. Kyoto Encyclopedia of Gene and Genomes (KEGG) pathway analysis showed 62 pathways associated with the positive regulators and 48 pathways associated with the negative regulators. The AVP‐regulated water reabsorption pathway was among the 62 positive pathways whose gene expression was reduced upon GR knockdown. Quantitative RT‐PCR analysis showed about 60% reduction in the V2R mRNA level upon GR knockdown. Taken together, our results implicated that GR in one hand potentiates AVP‐induced AQP2 gene expression and in the other hand maintains expression of genes involved in the AVP‐regulated water reabsorption pathway in the kidney collecting duct cells.Support or Funding InformationThis work was supported by the Ministry of Science and Technology, Taiwan (107‐2320‐B‐002‐057‐MY3).

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