Three Mutations (p.Q36H, p.G418fsX482, and g.IVS19-2A>C) in the Dual Oxidase 2 Gene Responsible for Congenital Goiter and Iodide Organification Defect

doi:10.1373/clinchem.2005.058321

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Clinical Chemistry 0: clinchem.2005.058321v1, 2005; 10.1373/clinchem.2005.058321

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Received on July 26, 2005
Accepted on November 7, 2005

Molecular Diagnostics and Genetics

Three Mutations (p.Q36H, p.G418fsX482, and g.IVS19-2A>C) in the Dual Oxidase 2 Gene Responsible for Congenital Goiter and Iodide Organification Defect

Viviana Varela ¹, Carina M. Rivolta ¹, Sebastián A. Esperante ¹, Laura Gruñeiro-Papendieck ², Ana Chiesa ², Héctor M. Targovnik ¹

¹ Laboratorio de Biología Molecular, Cáatedra de Genética y Biologúla Molecular, Facultad de Farmacia y Bioquímica, Universidad de Buenos Aires, Buenos Aires, Argentina
² Centro de Investigaciones Endocrinológicas, CEDIE-CONICET, División Endocrinología, Hospital de Niños "Ricardo Gutiérrez", Buenos Aires, Argentina

Background: Iodide organification defects are associated withmutations in the dual oxidase 2 (DUOX2) gene and are characterizedby a positive perchlorate discharge test. These mutations producea congenital goitrous hypothyroidism, usually transmitted inan autosomal recessive mode.

Methods: We studied the completecoding sequence of the human DUOX2 gene by single-strand conformationalpolymorphism (SSCP) analysis of DNA from 17 unrelated patientswith iodide organification defects. Samples showing an aberrantpattern were directly sequenced. All mutations were validatedby SSCP analysis. Finally, the effect of a splicing mutationwas studied by construction of minigenes.

Results: Genomic DNAsequencing revealed 3 novel mutations [c.108G>C (p.Q36H),c.1253delG (p.G418fsX482), and g.IVS19-2A>C] and 1 previouslyreported mutation [c.2895-2898delGTTC (p.S965fsX994)] in 2 familieswith 1 (family 1) and 2 (family 2) affected members. This impliesthe inheritance of 2 compound heterozygous mutations, p.Q36Hand p.S965fsX994 in family 1 and p.G418fsX482 and g.IVS19-2A>Cin family 2. The c.1253delG mutation was associated with a c.1254C>Atransversion. In vitro transcription analysis showed that exon20 is skipped entirely when the g.IVS19-2A>C mutation ispresent. The wild-type glutamine residue at position 36 is strictlyconserved.

Conclusions: Two previously unknown compound heterozygousmutations in the DUOX2 gene, p.Q36H/p.S965fsX994 and p.G418fsX482/g.IVS19-2A>C,are responsible for iodide organification defects in 2 unrelatedfamilies. Identification of the molecular basis of this disordermight be helpful for understanding the pathophysiology of thiscongenital hypothyroidism.

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