A novel adrenocorticotropin receptor mutation alters its structure and function, causing familial glucocorticoid deficiency
Date
2008
Journal Title
Journal ISSN
Volume Title
Publisher
ENDOCRINE SOC
Abstract
Context: Familial glucocorticoid deficiency (FGD) is an autosomal recessive disorder characterized by unresponsiveness to ACTH. In this study, two mutations of the ACTH receptor (MC2R) gene are reported in this FGD clinical case.
Objective: The objective of the study was to characterize a novel MC2R gene mutation in a compound heterozygous patient with FGD phenotype.
Design: This was a clinical case description, biochemical, molecular, and bioinformatics analysis to describe a novel MC2R gene mutation.
Patients: The subject of the study was a male diagnosed with primary adrenal insufficiency. The family history showed nonconsanguineous healthy parents, three healthy siblings, and one brother affected with FGD.
Main Outcome Measures: The mutant MC2R-Ala 126Ser showed significantly lower activity when it was stimulated with ACTH-(1-24) than did cells transfected with wild-type MC2R.
Results: The molecular studies demonstrated the presence of an adenine heterozygous insertion (InsA1347) in the MC2R gene (G217fs) in the patient. This insertion was due to a frame shift mutation in one allele and a premature stop codon codifying an aberrant receptor of 247 residues (27.2 kDa). We also found a novel heterozygous mutation alanine 126 by serine. Molecular dynamic simulations showed that serine 126 side chain fluctuates forming a noncanonical intrahelical hydrogen bond in the transmembrane helix 3 of the mutated receptor. This produces a structural rearrangement of the MC2R internal cavities that may affect the ligand recognition and signal transduction throughout the G protein.
Conclusions: We propose a molecular explanation for the reduced activity exhibited by the MC2R alanine 126 by serine mutant.
Objective: The objective of the study was to characterize a novel MC2R gene mutation in a compound heterozygous patient with FGD phenotype.
Design: This was a clinical case description, biochemical, molecular, and bioinformatics analysis to describe a novel MC2R gene mutation.
Patients: The subject of the study was a male diagnosed with primary adrenal insufficiency. The family history showed nonconsanguineous healthy parents, three healthy siblings, and one brother affected with FGD.
Main Outcome Measures: The mutant MC2R-Ala 126Ser showed significantly lower activity when it was stimulated with ACTH-(1-24) than did cells transfected with wild-type MC2R.
Results: The molecular studies demonstrated the presence of an adenine heterozygous insertion (InsA1347) in the MC2R gene (G217fs) in the patient. This insertion was due to a frame shift mutation in one allele and a premature stop codon codifying an aberrant receptor of 247 residues (27.2 kDa). We also found a novel heterozygous mutation alanine 126 by serine. Molecular dynamic simulations showed that serine 126 side chain fluctuates forming a noncanonical intrahelical hydrogen bond in the transmembrane helix 3 of the mutated receptor. This produces a structural rearrangement of the MC2R internal cavities that may affect the ligand recognition and signal transduction throughout the G protein.
Conclusions: We propose a molecular explanation for the reduced activity exhibited by the MC2R alanine 126 by serine mutant.
Description
Keywords
PROTEIN-COUPLED RECEPTORS, ACTH RESISTANCE SYNDROMES, ADRENAL INSUFFICIENCY, CRYSTAL-STRUCTURE, TRANSMEMBRANE DOMAIN, GENE-MUTATIONS, DRY MOTIF, RHODOPSIN, ACTIVATION, TEMPLATE