A Newly Discovered TSHR Variant (L665F) Associated With Nonautoimmune Hyperthyroidism in an Austrian Family Induces Constitutive TSHR Activation by Steric Repulsion Between TM1 and TM7

A Newly Discovered TSHR Variant (L665F) Associated With Nonautoimmune Hyperthyroidism in an Austrian Family Induces Constitutive TSHR Activation by Steric Repulsion Between TM1 and TM7

Objective: New in vivo mutations in G protein-coupled receptors open opportunities for insights into the mechanism of receptor activation. Here we describe the molecular mechanism of constitutive TSH receptor (TSHR) activation in an Austrian family with three generations of familial nonautoimmune hy...

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Published in:The journal of clinical endocrinology and metabolism Vol. 99; no. 10; pp. E2051 - E2059
Main Authors: Jaeschke, Holger, Schaarschmidt, Joerg, Eszlinger, Markus, Huth, Sandra, Puttinger, Rudolf, Rittinger, Olaf, Meiler, Jens, Paschke, Ralf
Format: Journal Article
Language:English
Published: United States Endocrine Society 01-10-2014
Copyright by The Endocrine Society
Subjects:
Adult
Austria
Base Sequence
Family Health
Female
Goiter, Nodular - genetics
Humans
Hyperthyroidism - congenital
Hyperthyroidism - genetics
Pedigree
Point Mutation
Pregnancy
Pregnancy Complications - genetics
Receptors, Thyrotropin - chemistry
Receptors, Thyrotropin - genetics
Stereoisomerism
Austria
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Summary:Objective: New in vivo mutations in G protein-coupled receptors open opportunities for insights into the mechanism of receptor activation. Here we describe the molecular mechanism of constitutive TSH receptor (TSHR) activation in an Austrian family with three generations of familial nonautoimmune hyperthyroidism. Patients: The index patient was diagnosed with hyperthyroidism during her first pregnancy. Her first two children were diagnosed with hyperthyroidism at the age of 11 and 10 years, respectively. TSH suppression was also observed in the third child at the age of 8 years, who has normal free T4 levels until now. TSH suppression in infancy was observed in the fourth child. The mother of the index patient was diagnosed with toxic multinodular goiter at the age of 36 years. Methods: DNA was extracted from blood samples from the index patient, her mother, and her four children. Screening for TSHR mutations was performed by high-resolution melting assays and subsequent sequencing. Elucidation of the underlying mechanism of TSHR activation was carried out by generation and structural analysis of TSHR transmembrane homology models and verification of model predictions by functional characterization of receptor mutations. Results and Conclusions: A newly discovered TSHR mutation L665F in transmembrane helix 7 of the receptor was detected in six members of this family. Functional characterization of L665F revealed constitutive activation for the Gs pathway and thus represents the molecular cause for hyperthyroidism in this family. The constitutive activation is possibly linked to a steric clash introduced by the L665F mutation between transmembrane helices 1 and 7.
Bibliography:This work was supported by Deutsche Krebshilfe Grant 109670.
ISSN:0021-972X
1945-7197
DOI:10.1210/jc.2014-1436