Two Japanese patients with the renal form of pseudohypoaldosteronism type 1 caused by mutations of NR3C2

Novel homozygous mutation in SCNN1A gene in an Iranian boy with PHA1B

OBJECTIVES

Pseudohypoaldosteronism type 1 (PHA1) has two genetically distinct variants, including renal and systemic forms. Systemic PHA type I (PHA1B) has varying degrees of clinical presentation and results from mutations in genes encoding subunits of the epithelial sodium channel (ENaC) including the alpha, beta, and gamma subunits. To date, about 45 variants of PHA1B have been identified.

CASE PRESENTATION

We report a boy with PHA1B, who presented with vomiting, lethargy, and poor feeding due to salt wasting six days after birth. The patient had electrolyte imbalances. A novel SCNN1A (sodium channel epithelial subunit alpha) gene mutation, NM_001038.6:c.1497G>C, with an autosomal recessive pattern, was identified by whole exosome sequencing. This variant was inherited as a homozygote from both heterozygous parents.

CONCLUSIONS

PHA should be considered in neonates with hyponatremia and hyperkalemia. This case report presents a patient with a novel mutation in SCNN1A that has not been previously reported. Long-term follow-up of identified patients to understand the underlying phenotype--genotype link is necessary.

Pseudohypoaldosteronism type 1b in fraternal twins of a Chinese family: report of two cases and literature review

Here, we report the clinical observations of two Chinese fraternal twins who presented with severe dehydration, poor feeding, and absence of stimuli responses within a few days of birth. Trio clinical exome sequencing of the family identified compound heterozygous intronic variants (c.1439+1G>C and c.875+1G>A ) in SCNN1A gene in these two patients. Sanger sequencing results showed that the c.1439+1G>C variant was inherited from the mother, and c.875+1G>A from the father, rarely reported in pseudohypoaldosteronism type 1 with sodium epithelial channel destruction (PHA1b) patients. Case 2 received timely symptomatic treatment and management after obtaining these results, which improved the clinical crisis. Our results suggest that the compound heterozygous splicing variants in SCNN1A were responsible for PHA1b in these Chinese fraternal twins. This finding extends the knowledge of the variant spectrum in PHA1b patients and highlights the application of exome sequencing in critically ill newborns. Finally, we discuss supportive case management, particularly in maintaining blood potassium concentration.

One-month-old girl presenting with pseudohypoaldosteronism leading to the diagnosis of CDK13-related disorder: a case report and review of the literature

BACKGROUND

It is not uncommon that an infant with a disease of unknown etiology is presented to a physician. Facial dysmorphic features lead to a different diagnosis. It is a challenge to link the presentation to the newfound diagnosis.

CASE PRESENTATION

A 37-day-old Yemenite Jewish girl was presented to our institution with a clinical picture of pseudohypoaldosteronism due to abnormal facial features and a psychomotor developmental delay. Further investigation led to the diagnosis of CDK13-related disorder. According to the literature, CDK13 has a key role in the cell cycle, but no interference with the aldosterone signaling pathway or electrolyte balance was described. No mutations in the previously described gene NR3C2 (cytogenetic location 4q31.23), encoding the mineralocorticoid receptor, were found. Although the clinical presentation corresponded to pseudohypoaldosteronism type 1, we could not genetically confirm this.

CONCLUSIONS

Probably pseudohypoaldosteronism was a coincidental finding in this girl with a CDK13 mutation, but because only limited information is known about CDK13-related disorders, further investigation could be more informative to clarify this presentation.

Clinical features and molecular basis of pseudohypoaldosteronism type 1

Pseudohypoaldosteronism (PHA) type 1 is a disease showing mineralocorticoid resistance in the kidney and/or other mineralocorticoid target tissues. Patients with PHA1 present very high plasma aldosterone and renin levels, but they develop excessive salt wasting. There are three types of PHA1. The systemic form of PHA1 is inherited in an autosomal recessive manner and causes severe life-long salt loss in multiple target tissues, such as sweat glands, salivary glands, the colonic epithelium, and the lung. In the systemic form of PHA1, life-long salt supplementation is necessary. The second type is the renal form, where aldosterone resistance is shown only in the kidney, and its inheritance is autosomal dominant. In the renal form of PHA1, salt supplementation generally becomes unnecessary by 1-3 yr of age. The third type is the secondary PHA1, which is strongly associated with urinary tract infections and/or urinary tract malformations. This review summarizes the clinical features and molecular basis of PHA1. Understanding of its pathogenesis can be helpful for the early diagnosis and clinical care of affected children with PHA1.