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Congenital chloride diarrhea needs to be distinguished from Bartter and Gitelman syndrome

Authors :
Kazumoto Iijima
Naoya Morisada
Mariko Taniguchi-Ikeda
Natsuki Matsunoshita
Tomohiko Yamamura
Shingo Ishimori
Shogo Minamikawa
Azusa Kawaguchi
Masahide Yoshikane
Takeshi Ninchoji
Keita Nakanishi
Hiroshi Kaito
Ichiro Morioka
Junya Fujimura
Tomoko Horinouchi
Kandai Nozu
Naoya Fujita
Hiroaki Nagase
Source :
Journal of human genetics. 63(8)
Publication Year :
2018

Abstract

Pseudo-Bartter/Gitelman syndrome (p-BS/GS) encompasses a clinically heterogeneous group of inherited or acquired disorders similar to Bartter syndrome (BS) or Gitelman syndrome (GS), both renal salt-losing tubulopathies. Phenotypic overlap frequently occurs between p-BS/GS and BS/GS, which are difficult to diagnose based on their clinical presentation and require genetic tests for accurate diagnosis. In addition, p-BS/GS can occur as a result of other inherited diseases such as cystic fibrosis, autosomal dominant hypocalcemia, Dent disease, or congenital chloride diarrhea (CCD). However, the detection of the variants in genes other than known BS/GS-causing genes by conventional Sanger sequencing requires substantial time and resources. We studied 27 cases clinically diagnosed with BS/GS, but with negative genetic tests for known BS/GS genes. We conducted targeted sequencing for 22 genes including genes responsible for tubulopathies and other inherited diseases manifesting with p-BS/GS symptoms. We detected the SLC26A3 gene variants responsible for CCD in two patients. In Patient 1, we found the SLC26A3 compound heterozygous variants: c.354delC and c.1008insT. In Patient 2, we identified the compound heterozygous variants: c.877G > A, p.(Glu293Lys), and c.1008insT. Our results suggest that a comprehensive genetic screening system using targeted sequencing is useful for the diagnosis of patients with p-BS/GS with alternative genetic origins.

Details

ISSN :
1435232X
Volume :
63
Issue :
8
Database :
OpenAIRE
Journal :
Journal of human genetics
Accession number :
edsair.doi.dedup.....50c916d4dd13d1599d912bfc4c117d2c