The variety of genetic defects explains the phenotypic heterogeneity of Familial Hyperkalemic Hypertension

INTRODUCTION: Familial hyperkalemic hypertension is a rare inherited form of arterial hypertension. Four genes are responsible for this disease, the variants of these genes cause disruption in the regulation of ion transport in the distal renal tubule. Whether the genotype explains the large phenotypic heterogeneity has not been fully explored. METHODS: We retrospectively analyzed clinical and genetic data of 153 cases (84 probands, 69 relatives) with familial hyperkalemic hypertension. RESULTS: Pathogenic variants (25 novel variants) were identified as follows: KLHL3 (n = 50), CUL3 (n = 16), WNK1 acidic motif (n = 11), WNK4 acidic motif (n = 4) and WNK1 intron 1 deletions (n = 3). De novo cases were mainly observed in the CUL3-related cases (9 of 12) and recessive cases were only observed in KLHL3-related cases (14 of 50). More severe forms were observed in recessive KLHL3 and CUL3 cases that were also associated with growth retardation. Patients with WNK1 acidic motif variants had a typical biological phenotype and lower frequency of hypertension conversely to WNK4 variants affecting the same motif. Patients with heterozygous KLHL3 and WNK1 deletions had milder forms. Familial screening in 178 relatives allowed detection and care for 69 positive cases. Blood pressure and hyperkalemia were improved by hydrochlorothiazide in all groups. CONCLUSIONS: This study confirms the phenotypic variability ranging from the severe and early forms associated with CUL3 and recessive KLHL3 genotypes through intermediate forms associated with KLHL3 dominant, WNK4 and WNK1 deletion to mild form associated with WNK1 acidic motif genotype and reinforces the interest of genetic screening to better orientate medical care and genetic counseling.