X-Linked nephrogenic diabetes insipidus (NDI), which accounts for 90% of inherited cases of NDI, is caused by mutations in the AVPR2 gene that encodes the arginine vasopressin (AVP) receptor type 2 (V2R). The V2R mediates the antidiuretic action of AVP in principal cells of the collecting duct. To date, only three AVPR2 mutations (P322S, D85N, and G201D) have been associated with a mild NDI phenotype, and intrafamilial phenotype variability has not been reported in affected males. We describe a novel Belgian family with X-linked NDI caused by substitution of a histidine for an arginine at position 137 (R137H) of AVPR2. This mutation has been identified in two brothers and their mother. The R137H mutation results in a failure of V2R to stimulate adenylate cyclase and has been associated consistently with severe NDI and the inability to increase urinary osmolality to greater than plasma osmolality during water deprivation and/or infusion of 1-desamino-8-d-arginine vasopressin. Detailed examination of the two affected brothers showed the typical NDI phenotype in the 45-year-old proband, whereas a milder clinical phenotype associated with significant urinary concentrating ability during water deprivation was documented in the 33-year-old brother. Thus, in this family, the R137H mutation is associated with either a mild or severe NDI phenotype. Mechanisms that might account for these findings include genetic and/or environmental modifiers.
Copyright 2002 by the National Kidney Foundation, Inc.