Background: Mutations in SLC4A4 have been reported to be associated with proximal renal tubular acidosis (RTA), short stature, band keratopathy, cataract, glaucoma, and hypoplastic-type amelogenesis imperfecta. In this study, the authors describe the clinical manifestations, and investigate the molecular etiology, in a patient with RTA.
Case description: The authors report on a girl with distal RTA who carried a novel homozygous base substitution of 2 consecutive base pair variants (NM_001098484.3:c.808-2A>C and NM_001098484.3:c.808-1G>C) in the SLC4A4 gene. The patient had clinical manifestations of autoimmune thyroiditis and distal RTA, including hypercalciuria, nephrocalcinosis, and nephrolithiasis. In addition to the presence of hypoplastic-type amelogenesis imperfecta, generalized enamel hypomaturation, a feature seen in mice lacking Slc4a4, was also observed in the patient. The basic defect in this patient appeared to be impaired hydrogen ion secretion, leading to an inability to acidify the urine, resulting in alkaline urine (despite a normal serum anion gap), hypokalemic, and hyperchloremic metabolic acidosis. The pulp stones found in the patient may likely be the consequences of a disrupted acid-base homeostatic environment that precipitated mineral deposits. Even with proper treatments for distal RTA, the patient has had frequent recurrences of band keratopathy, pupillary membrane, and cataract.
Practical implications: This is the first report of distal RTA, autoimmune thyroiditis, tooth agenesis, enamel hypomaturation, and pulp stones associated with an SLC4A4 mutation. It is important for dentists to be aware that amelogenesis imperfecta in patients may be a sign of systemic diseases including RTA, nephrocalcinosis, or nephrolithiasis.
Keywords: Renal tubular acidosis; amelogenesis imperfecta; autoimmune thyroiditis; kidney stones; nephrocalcinosis; nephrolithiasis; pulp stones.
Copyright © 2022 American Dental Association. Published by Elsevier Inc. All rights reserved.