Abstract
Multisystem pseudohypoaldosteronism (PHA) is a rare autosomal recessive aldosterone unresponsiveness syndrome that results from mutations in the genes encoding epithelial sodium channel (ENaC) subunits alpha, beta and gamma. In this study we examined three PHA patients to identify mutations responsible for PHA with different clinical presentations. All three patients presented uniformly with symptoms of severe salt-loss during the first week of life and were hospitalized for up to a year. Beyond infancy, one of the patients showed mild renal salt loss and had no lower respiratory tract infections until 8 years of age, while the other patients continue with a severe course. We sequenced the complete coding regions and intron-exon junctions of the genes encoding alpha, beta and gamma subunits of ENaC for all patients. The results revealed that the mild case represents a novel compound heterozygote including a missense (Gly327Cys) mutation in the alphaENaC gene. Sequences of relatives over three generations confirmed that the missense mutation co-segregates with PHA. This mutation was not found in 60 control subjects. The other patients with severe PHA had two homozygous mutations, a novel deletion mutation in exon 8 of the alphaENaC gene and a splice site mutation in intron 12 of the betaENaC gene. Most of the PHA-causing mutations appear in the alphaENaC gene located on chromosome 12 rather than in the beta and gammaENaC genes located tandemly on chromosome 16. However, the frequency of sequence variants in patients and control subjects showed no difference between genes. Severe PHA cases are associated with mutations leading to absence of normal-length alpha, beta or gammaENaC, while a mild case has been found to be associated with a missense mutation in alphaENaC. The predominance of PHA-causing mutations in the alphaENaC gene may be related to the function of this subunit.
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