Five Novel Mutations in Chinese Children with Primary Distal Renal Tubular Acidosis.

AIM:To analyze the variants of the potential causative genes in five Chinese patients with primary distal renal tubular acidosis (dRTA) from five unrelated families, and to explore their possible genotype-phenotype correlations, so as to raise the awareness of the disease. METHODS:Variants were identified by next generation sequencing. Clinical features and biochemical findings at the first presentation, as well as at follow-up visits were also investigated. One hundred unrelated healthy subjects were selected to evaluate each of the novel mutations found in this study. RESULTS:A total of seven different mutations in the ATP6V0A4, ATP6V1B1, and SLC4A1 genes, the three main causative genes of dRTA, were detected in 4/5 patients. In patient I a novel heterozygous intronic mutation (c.639 + 1G>A) in the ATP6V0A4 gene was identified along with a heterozygous nonsense variant (c.580C>T, p.Arg194*). Two novel heterozygous missense mutations of the ATP6V1B1 gene (c.409C>T, p.Pro137Ser; c.904C>T, p.Arg302Trp) were identified in patient II. In patient III 2 novel heterozygous duplications (c.1504dupT, p.Tyr502Leufs*22; c.2351dupT, p.Phe785Ilefs*28) were found. Thus, these three patients all were compound heterozygotes leading to dRTA. These findings are consistent with the known autosomal recessive inheritance pattern of this disease. Furthermore, a de novo heterozygous missense mutation previously reported (c.1765C>A, p.Arg589Ser) in the SLC4A1 gene was observed in patient IV. No mutations in any of the known dRTA-related causative genes were found in the patient V. CONCLUSIONS:In the present study we identified 7 mutations, including 5 novel variants, in the three genes previously correlated with dRTA, enriching the human gene mutation database (HGMD). In addition, our lack of findings in these three genes for patient V suggests that other genes may contribute to dRTA in some cases.

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