Abstract
The glucocorticoid (GC) receptor (GR) is essential for normal development and in the initiation of inflammation. Healthy GRdim/dim mice with reduced dimerization propensity due to a point mutation (A465T) at the dimer interface of the GR DNA-binding domain (DBD) (here GRD/D) have previously helped to define the functions of GR monomers and dimers. Since GRD/D retains residual dimerization capacity, here we generated the dimer-nullifying double mutant GRD+L/D+L mice, featuring an additional mutation (I634A) in the ligand-binding domain (LBD) of GR. These mice are perinatally lethal, as are GRL/L mice (these mice have the I634A mutation but not the A465T mutation), displaying improper lung and skin formation. Using embryonic fibroblasts, high and low doses of dexamethasone (Dex), nuclear translocation assays, RNAseq, dimerization assays, and ligand-binding assays (and Kd values), we found that the lethal phenotype in these mice is due to insufficient ligand binding. These data suggest there is some correlation between GR dimerization potential and ligand affinity. We conclude that even a mutation as subtle as I634A, at a position not directly involved in ligand interactions sensu stricto, can still influence ligand binding and have a lethal outcome.
Highlights
Glucocorticoids (GCs) as well as their receptor (GR) are essential for life in mammals
The direct interaction of glucocorticoid receptor (GR) dimers with DNA occurs at a sequence motif called a GC response element (GRE), which is a 15 base pair motif that is composed of two imperfect hexameric inverted palindromic repeats separated by a 3 bp spacer, with the consensus sequence of AGAACA [N]3TGTTCT [10]
A single-guide RNA, as well as a mutating template containing the desired point mutation (I > A) as shown in Fig. S1, and Cas9 mRNA were microinjected in the male pronucleus of the zygotes
Summary
Glucocorticoids (GCs) as well as their receptor (GR) are essential for life in mammals. Our results suggest that the mechanism leading to the perinatal lethality of mice carrying the GRL/L or GRD+L/D+L mutation is caused by reduced ligand binding.
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