Abstract
The classic role of mineralocorticoid receptor (MR) is to promote sodium transport in epithelial tissues. However, the MR is also expressed in a range of tissues in which its role appears unrelated to sodium transport, and under normal physiological conditions, it may be responding to cortisol (corticosterone in rodents) rather than aldosterone. The relative importance of transcriptional mechanisms such as classical genomic signaling via a hormone response element, transrepression of other transcription factors, and nongenomic signaling is not clear, particularly in nonepithelial tissues. The goal of the present study was to define the role of the different signaling pathways for the MR by separating the functional role of classic genomic signaling, mediated by DNA binding, from these two other mechanisms. We used gene targeting to generate mice in which serine is substituted for cysteine at codon 603 in the MR; this mutation precludes DNA binding. These MR C603S mutant mice either die at birth or fail to thrive, lose weight, and die between days 10 and 13 in a manner similar to that observed previously for mice null for the MR gene. Renal expression and cellular localization of MR C603S by immunohistochemistry was equivalent to control mice. MR C603S mice were rescued by twice-daily saline injections. Despite increased aldosterone levels, renal expression of aldosterone-induced genes was not increased. This unique mouse model demonstrates that DNA binding is essential for the epithelial MR response and will provide the basis for analysis of nonclassical signaling of the MR in nonepithelial tissues.
Highlights
Symposium 1B: MR Genomic and Non-Genomic Function Chairs: Celso Gomez Sanchez, Univ. of Mississippi and Maria-Christina Zennaro, Paris Cardiovascular Research Center
Medical Center NeuroD Factors Discriminate mineralocorticoid from glucocorticoid receptor DNA binding in the male rat brain
Deoxycorticosterone/salt-mediated cardiac inflammation and fibrosis are dependent on functional CLOCK signaling
Summary
Symposium 1B: MR Genomic and Non-Genomic Function Chairs: Celso Gomez Sanchez, Univ. of Mississippi and Maria-Christina Zennaro, Paris Cardiovascular Research Center. Symposium 1B: MR Genomic and Non-Genomic Function Chairs: Celso Gomez Sanchez, Univ. Medical Center NeuroD Factors Discriminate mineralocorticoid from glucocorticoid receptor DNA binding in the male rat brain. Symposium 2A: Structure Function of ENaC and Related Transporters Chairs: Peter Snyder, Univ. Symposium 2B: ENaC Function and Regulation in Tissues Chair: Larry Palmer, Cornell Univ. Of Pittsburgh ENaC regulation by the extracellular environment. Of Pittsburgh Role of microRNAs in aldosterone signaling and ENaC regulation. Symposium 3B: Signaling and Regulation of ENaC and Other Epithelial Channels/Transporters II. Chairs: Alexander Staruschenko, Medical College of Wisconsin, and Jim Stockand, Univ. The purpose of the workshop is to provide career advice to junior faculty, postdoctoral fellows, and students on areas including grant writing, academic promotion, manuscript writing, mentorship, and other faculty activities
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