A novel resistance to thyroid hormone associated with a new mutation (T329N) in the thyroid hormone receptor beta gene.

Abstract

Resistance to thyroid hormone (RTH) is a syndrome of elevated serum thyroxine, inappropriately "normal" serum thyrotropin (TSH) and reduced thyroid hormone responsiveness associated with point mutations in the thyroid hormone receptor-beta (TRbeta) gene. We describe a novel point mutation resulting in a cytosine for adenine substitution at nucleotide 1271 (exon 9) that results in the substitution of threonine for asparagine (T329N). This mutation was identified in a 30-year-old woman who was investigated for recurrent spontaneous abortions and was found to have RTH. Dextrothyroxine (D-T4) therapy was instituted. At 8 mg per day 2 pregnancies followed with the delivery of a healthy boy and an RTH-affected girl another miscarriage occurred on D-T4 treatment at 6 mg per day. The T329N mutation, which was also identified in the daughter, markedly reduces the affinity of TRbeta for triiodothyronine (T3). Formation of T329N mutant TR homodimers and heterodimers with RXRalpha on thyroid hormone response element F2 (TRE F2) was not affected, but the ability of T3 to interrupt T329N mutant TRbeta homodimerization was markedly reduced. The T329N mutant TRbeta was transcriptionally inactive in transient expression assays. In cotransfection assays with wild-type TRbeta1, the mutant TRbeta1 functioned in a dominant negative manner. The results suggest that the T329N mutation in the T3-binding domain of TRbeta is responsible for RTH in the proposita's family.