Iodide transport defect (ITD) is an autosomal recessive disorder caused by deficient iodide accumulation into the thyroid follicular cell. ITD is an uncommon cause of dyshormonogenetic congenital hypothyroidism that results from inactivating mutations in the sodium/iodide symporter (NIS)-coding SLC5A5 gene. NIS is a key basolateral plasma membrane glycoprotein that efficiently mediates active iodide uptake in the thyroid-constituting the first step in the biosynthesis of the iodine-containing thyroid hormones-and other tissues, including salivary glands, lactating breast, and small intestine. The proposita, a 20-day-old female born in 1992, was diagnosed with congenital hypothyroidism through newborn screening. ITD was suspected on the basis of nondetectable radioiodide accumulation in a normally located nongoitrous thyroid gland, as well as in salivary glands. Sanger sequencing revealed nonpreviously reported compound heterozygous missense SLC5A5 gene variants (c.991G>A, p.D331N and c.1.641C>A, p.S547R). Notably, these variants have not been reported in public databases (i.e., Exome Aggregation Consortium, 1000 Genomes, and Single Nucleotide Polymorphism). In silico analysis using prediction softwares (i.e., SIFT, Polyphen-2, and MutationTaster2) support the pathologic significance of p.D331N and p.S547R NIS. Moreover, functional in vitro studies demonstrate that D331N and S547R NIS severely reduce iodide uptake when the proteins are heterologously expressed in HEK-293T cells because of a pronounced impairment of D331N and S547R NIS targeting to the plasma membrane. Of note, a charged residue at position 331 and a serine residue at position 547-which are highly conserved in SLC5A family members-are required for NIS plasma membrane targeting. We report two novel missense pathogenic variants in a compound heterozygous state in the SLC5A5 gene, detected through Sanger sequencing, in a pediatric female patient with dyshormonogenic congenital hypothyroidism.
Keywords: dyshormonogenic congenital hypothyroidism; impaired plasma membrane trafficking; iodide transport defect; sodium/iodide symporter; thyroid.