Sandra Huth scite author profile

Insulin secretion from pancreatic b cells is a highly complex and tightly regulated process. Its dysregulation is one characteristic of type 2 diabetes, and thus, an in-depth understanding of the mechanisms controlling insulin secretion is essential for rational therapeutic intervention. G-protein-coupled receptors (GPCRs) have been established as major regulators of insulin exocytosis. Recent studies also suggest the involvement of adhesion GPCRs, a non-prototypical class of GPCRs. Here, we identify latrophilins, which belong to the class of adhesion GPCRs, to be highly expressed in different cell types of pancreatic islets. In vitro and ex vivo analyses show that distinct splice variants of the latrophilin LPHN3/ADGRL3 decrease insulin secretion from pancreatic b cells by reducing intracellular cyclic AMP levels via the G i -mediated pathway. Our data highlight the key role of LPHN3 in modulating insulin secretion and its potential as therapeutic target for type 2 diabetes.

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Somatic mutations in 33 benign and malignant hot thyroid nodules in children and adolescents

Eszlinger

Niedziela

Typlt

et al. 2014

Molecular and Cellular Endocrinology

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Influence of the Hinge Region and Its Adjacent Domains on Binding and Signaling Patterns of the Thyrotropin and Follitropin Receptor

Schaarschmidt¹,

Huth²,

Meier

et al. 2014

PLoS ONE

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Glycoprotein hormone receptors (GPHR) have a large extracellular domain (ECD) divided into the leucine rich repeat (LRR) domain for binding of the glycoprotein hormones and the hinge region (HinR), which connects the LRR domain with the transmembrane domain (TMD). Understanding of the activation mechanism of GPHRs is hindered by the unknown interaction of the ECD with the TMD and the structural changes upon ligand binding responsible for receptor activation. Recently, our group showed that the HinR of the thyrotropin receptor (TSHR) can be replaced by those of the follitropin (FSHR) and lutropin receptor (LHCGR) without effects on surface expression and hTSH signaling. However, differences in binding characteristics for bovine TSH at the various HinRs were obvious. To gain further insights into the interplay between LRR domain, HinR and TMD we generated chimeras between the TSHR and FSHR. Our results obtained by the determination of cell surface expression, ligand binding and G protein activation confirm the similar characteristics of GPHR HinRs but they also demonstrate an involvement of the HinR in ligand selectivity indicated by the observed promiscuity of some chimeras. While the TSHR HinR contributes to specific binding of TSH and its variants, no such contribution is observed for FSH and its analog TR4401 at the HinR of the FSHR. Furthermore, the charge distribution at the poorly characterized LRR domain/HinR transition affected ligand binding and signaling even though this area is not in direct contact with the ligand. In addition our results also demonstrate the importance of the TMD/HinR interface. Especially the combination of the TSHR HinR with the FSHR-TMD resulted in a loss of cell surface expression of the respective chimeras. In conclusion, the HinRs of GPHRs do not only share similar characteristics but also behave as ligand specific structural and functional entities.

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Rearrangement of the Extracellular Domain/Extracellular Loop 1 Interface Is Critical for Thyrotropin Receptor Activation

Schaarschmidt

Nagel

Huth

et al. 2016

Journal of Biological Chemistry

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The thyroid stimulating hormone receptor (TSHR) is a G protein-coupled receptor (GPCR) with a characteristic large extracellular domain (ECD). TSHR activation is initiated by binding of the hormone ligand TSH to the ECD. How the extracellular binding event triggers the conformational changes in the transmembrane domain (TMD) necessary for intracellular G protein activation is poorly understood. To gain insight in this process, the knowledge on the relative positioning of ECD and TMD and the conformation of the linker region at the interface of ECD and TMD are of particular importance. To generate a structural model for the TSHR we applied an integrated structural biology approach combining computational techniques with experimental data. Chemical cross-linking followed by mass spectrometry yielded 17 unique distance restraints within the ECD of the TSHR, its ligand TSH, and the hormone-receptor complex. These structural restraints generally confirm the expected binding mode of TSH to the ECD as well as the general fold of the domains and were used to guide homology modeling of the ECD. Functional characterization of TSHR mutants confirms the previously suggested close proximity of Ser-281 and Ile-486 within the TSHR. Rigidifying this contact permanently with a disulfide bridge disrupts ligand-induced receptor activation and indicates that rearrangement of the ECD/extracellular loop 1 (ECL1) interface is a critical step in receptor activation. The experimentally verified contact of Ser-281 (ECD) and Ile-486 (TMD) was subsequently utilized in docking homology models of the ECD and the TMD to create a full-length model of a glycoprotein hormone receptor. Glycoprotein hormones (GPHs)3 normally regulate crucial processes in metabolism and reproduction by activating GPHRs. This is especially true for TSHR, which can cause several clinically relevant conditions like hypo-and hyperthyroidism when it malfunctions. Yet the mechanism of how extracellular ligand binding induces the structural changes required for intracellular G protein activation is unknown. We pursued an integrated structural biology approach using modeling guided by experimental data to generate experimentally supported full-length TSHR models. It is expected that some insights gleaned from a TSHR model can be generalized to other GPHRs. These models in turn create testable hypotheses on the mechanism of GPHR activation and can promote drug development to treat GPHR-associated diseases.GPHs bind to the ECD of their respective receptors (Fig. 1A) and consequently initiate activation, which is presumably propagated by induction of conformational changes within the ECD's hinge region (HR) (1-4). Interestingly, GPHRs still possess a binding site within the TMD not associated with physiological receptor activation but accessible to low molecular weight agonists and allosteric modulators (5-7). Another important aspect of GPHR function and physiology is posttranslational modification, including disulfide bond formation, glycosylation, tyrosine sulfation, and p...

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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

Jaeschke

Schaarschmidt

Eszlinger

et al. 2014

The Journal of Clinical Endocrinology & Metabolism

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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.

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Sandra Huth

Involvement of the Adhesion GPCRs Latrophilins in the Regulation of Insulin Release

Somatic mutations in 33 benign and malignant hot thyroid nodules in children and adolescents

Influence of the Hinge Region and Its Adjacent Domains on Binding and Signaling Patterns of the Thyrotropin and Follitropin Receptor

Rearrangement of the Extracellular Domain/Extracellular Loop 1 Interface Is Critical for Thyrotropin Receptor Activation

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

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