Your search keyword '"TSHR"' showing total 376 results

1. Potential impact of organophosphate esters on thyroid eye disease based on machine learning and molecular docking

Author

Jia, Tianqi, Liu, Wenbin, Keller, Arturo A., Gao, Lirong, Xu, Xiaotian, Wu, Wenqi, Wang, Xiaoxia, Yu, Yang, Zhao, Guang, Li, Baohui, Deng, Jinglin, Mao, Tianao, and Chen, Chunci

Published

2024

2. Comparison of orbital fibroblasts from Graves’ ophthalmopathy and healthy control

Author

Wu, Yu, Zhang, Jiuming, Deng, Wen, Mo, Chaoting, Liang, Yumei, Huang, Kongqian, Xu, Fan, and Tang, Fen

Published

2024

3. THSR Mediated MiR374b Targeting C/EBP β/FOXO1 to Accelerate Thyroid Stimulating Hormone-Induced Hepatic Steatosis

Author

Li J, Ge Y, Chai Y, Kou C, Sun TT, Liu J, and Zhang H

Subjects

nafld, mir374b, tshr, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Juyi Li,1,2 Yang Ge,3 Yuwei Chai,1 Chunjia Kou,1 Tian Tian Sun,4 Jia Liu,3,5– 7 Haiqing Zhang1,3,5– 7 1Department of Endocrinology, Shandong Provincial Hospital, Shandong University; Key Laboratory of Endocrine Glucose & Lipids Metabolism and Brain Aging, Ministry of Education, Jinan, Shandong, 250021, People’s Republic of China; 2Department of Endocrinology, Geriatrics Center, The First Affiliated Hospital of Anhui University of Chinese Medicine, Hefei, Anhui, 230031, People’s Republic of China; 3Department of Endocrinology, Shandong Provincial Hospital Affiliated to Shandong First Medical University, Jinan, Shandong, 250021, People’s Republic of China; 4Department of Infectious Diseases, Jinan People’s Hospital, Jinan, Shandong, 271100, People’s Republic of China; 5Shandong Key Laboratory of Endocrinology and Lipid Metabolism, Jinan, Shandong, 250021, People’s Republic of China; 6Shandong Institute of Endocrine and Metabolic Diseases, Jinan, Shandong, 250021, People’s Republic of China; 7Shandong Engineering Laboratory of Prevention and Control for Endocrine and Metabolic Diseases, Jinan, Shandong, 250021, People’s Republic of ChinaCorrespondence: Jia Liu; Haiqing Zhang, Department of Endocrinology, Shandong Provincial Hospital, 324 Jingwu Road, Jinan, Shandong Province, 250021, People’s Republic of China, Tel +86 18653155865 ; Tel +86 15168888303, Email liujia_625@163.com; zhanghq@sdu.edu.cnPurpose: Thyroid-stimulating hormone (TSH) has been identified as an independent risk factor for non-alcoholic fatty liver disease (NAFLD), TSH binds to the TSH receptor (TSHR) to exert its function. However, the underlying mechanisms by which TSHR influences NAFLD development remain unclear. This study investigates the role of miR374b in NAFLD progression.Methods: Firstly, a rat model of non-alcoholic fatty liver was constructed and divided into a normal group and a model group. The liver tissue pathology and fat accumulation were detected by Oil Red O staining and hematoxylin-eosin staining. Western blot and Real time PCR were used to detect for the impact of TSHR/miR-374b/C/EBP β/ FoxO1 pathway in the NAFLD model, and the expression of relevant inflammatory factors in each group was detected by ELISA assay. A NAFLD cell model was constructed using HepG2 cells, TSHR overexpression and interference, combined with miR-374b inhibitor and mimics, were transfected simultaneously to demonstrate TSHR/miR-374b/C/EBP β/ The mechanism of FoxO1 adipogenesis in vitro.Results: TSHR stimulates miR374b secretion in human liver cancer cells (HepG2) and promotes lipid accumulation in the liver. Deficiency of miR374b in HepG2 cells attenuated NAFLD progression. Mechanistically, TSH increases miR374b expression, which then suppresses the transcription of its target genes, CCAAT/enhancer binding protein-b (C/EBP β) and Forkhead Box Protein O1 (FOXO1). This suppression influences the expression of downstream lipid metabolism proteins, including PPARγ, SREBP2, and SREBP1c. Additionally, miR374b directly targets the 3′UTR of C/EBP β and FOXO1, establishing a negative feedback loop in lipid metabolism.Conclusion: These findings suggest that TSHR-induced upregulation of miR374b accelerates NAFLD progression by modulating lipid metabolism pathways through C/EBP β and FOXO1. Keywords: NAFLD, miR374b, TSHR

Published

2024

4. The immune response formed by the introduction of a DNA vector containing a cDNA fragment of the human thyroid-stimulating hormone receptor gene into transgenic mice

Author

A. V. Zubkov, L. G. Butova, N. S. Kuzmina, I. V. Yakovleva, N. F. Gavrilova, A. A. Kornoukhova, A. V. Sidorov, B. V. Khraim Wael, V. V. Kuzmenko, I. V. Zubkova, and V. V. Fadeev

Subjects

tshr, dna immunization, mouse model of autoimmune disease, mab against tshr, autoantibodies, immune response, Immunologic diseases. Allergy, RC581-607

Abstract

The number of patients with autoimmune thyroid diseases (Graves’disease, Hashimoto’sthyroiditis) is increasing globally. The most important part in the diagnosis of Graves’ disease (GD) is the detection of autoantibodies to the thyrotropin receptor (TSHR) in Graves’ patients’ sera. For the differential diagnosis of antibodies to thyroid antigens, it is promising to use tests based on monoclonal antibodies to TSHR, which can be obtained not only as a result of immunization with native or recombinant TSHR protein, but also through DNA immunization with genetically engineered constructs containing fragments of the TSHR gene. Based on mRNA we isolated from the thyroid tissue in GD, a number of fragments of the thyrotropin receptor gene were cloned, suitable for DNA immunization of animals. The purpose of this work is to evaluate the immunogenic properties of one of the constructed vectors, pVAX1-TSHR (1160), in a mouse model. The successful inclusion of the extracellular domain gene fragment of the human TSHR (1160), which was transfected into CHO cells as a part of the pVAX1 vector was confirmed by immunoblotting and ELISA. The immune response formed to the injection of the pVAX1 vector into BALB/c mice, containing a fragment of the human TSHR gene, was detected in different versions of ELISA. Immunization of animals with the DNA vector pVAX1-TSHR according to an experimentally selected scheme was effective for the formation of mouse splenocytes, secreting antibodies to TSHR, which were used for successful hybridization. This was confirmed by the results of determining antibody production to TSHR in murine blood sera. The level of antibody production remained high (titer more than 1:10.000) at the 8th week of the experiment. As a result of selection of individual clones according to the criteria of proliferative activity and stability of antibody production, the most stable cultures secreting mAbs against TSHR were selected.

Published

2024

5. Zirconium- 89 Labeled Antibody K1-70 for PET Imaging of Thyroid-stimulating Hormone Receptor Expression in Thyroid Cancer.

Author

Parent, Ephraim E., Gleba, Justyna J., Knight, Joshua A., Kenderian, Saad J., Copland III, John A., and Cai, Hancheng

Subjects

*POSITRON emission tomography, *COMPUTED tomography, *HORMONE receptors, *THYROID gland tumors, *RADIOCHEMICAL purification, *THYROID hormone receptors

Abstract

Purpose: Thyroid-stimulating hormone receptor (TSHR) is a G-protein coupled receptor that is highly expressed on benign and malignant thyroid tissues. TSHR binding and activation has long been a component of thyroid cancer molecular imaging and radiotherapy, by promoting expression of the sodium-iodide symporter (NIS) and incorporation of I-131 into thyroid hormones. Here, we report the radiosynthesis and preclinical evaluation of a Zirconium-89 (89Zr) labeled TSHR antibody to serve as a positron emission tomography (PET) diagnostic correlate for therapeutic agents targeting TSHR without reliance on NIS. Procedures: TSHR human monoclonal antibody K1-70 was conjugated to chelator desferrioxamine-p-benzyl-isothiocyanate, followed by labeling with Zr-89, yielding the radiotracer 89Zr-DFO-TSHR-Ab. The in vitro cellar uptake and binding affinity of 89Zr-DFO-TSHR-Ab were analyzed in three new TSHR stable overexpressing tumor cell lines and their corresponding wild types (WT) with low or no TSHR expression. 89Zr-DFO-TSHR-Ab PET/CT imaging of TSHR expression was evaluated in tumor mouse models bearing one TSHR-positive tumor and other negative control with or without the coinjection of antibody K1-70, and then verified by radiotracer biodistribution study and tumor immunohistochemistry (IHC). Results: The conjugate DFO-TSHR-Ab was labeled with Zr-89 at 37 °C for 60 min and purified by PD-10 column in radiochemical yields of 68.8 ± 9.9%, radiochemical purities of 98.7 ± 0.8%, and specific activities of 19.1 ± 2.7 mCi/mg (n = 5). In vitro cell studies showed 89Zr-DFO-TSHR-Ab had significantly high uptake on TSHR expressing tumor cells with nanomolar affinity and high potency. Preclinical PET/CT imaging revealed that 89Zr-DFO-TSHR-Ab selectively detected TSHR expressing thyroid tumors and displayed improved in vivo performance with the coinjection of unlabeled TSHR antibody K1-70 leading to higher uptake in TSHR expressing tumors than parental WT tumors and physiologic tissues; this observation was confirmed by the biodistribution and immunostaining analyses. Conclusions: We synthesized 89Zr-labeled antibody K1-70 as a new radiopharmaceutical for PET imaging of TSHR. 89Zr-DFO-TSHR-Ab has high radioactive uptake and retention in TSHR expressing tumors and cleared quickly from most background tissues in mouse models. Our study demonstrated that 89Zr-DFO-TSHR-Ab has the potential for PET imaging of TSHR-positive thyroid cancer and monitoring TSHR-targeted therapy. [ABSTRACT FROM AUTHOR]

Published

2024

6. TSH Receptor Oligomers Associated With the TSH Receptor Antibody Reactome.

Author

Mezei, Mihaly, Latif, Rauf, and Davies, Terry F

Subjects

TRANSMEMBRANE domains, MOLECULAR dynamics, RECEPTOR antibodies, CELL anatomy, AUTOANTIBODIES

Abstract

The TSH receptor (TSHR) and its many forms are the primary antigens of Graves' disease as evidenced by the presence of TSHR antibodies of differing biological activity. The TSH holoreceptor undergoes complex posttranslational changes including cleavage of its ectodomain and oligomer formation. We have previously shown that the TSHR exists in both monomeric and dimeric structures in the thyroid cell membrane and have demonstrated, by modeling, that the transmembrane domains (TMD) can form stable dimeric structures. Based on these earlier simulations of the TSHR-TMD structure and our most recent model of the full-length TSHR, we have now built models of full-length TSHR multimers with and without TSH ligand in addition to multimers of the extracellular leucine-rich domain, the site of TSH and autoantibody binding. Starting from these models we ran molecular dynamics simulations of the receptor oligomers solvated with water and counterions; the full-length oligomers also were embedded in a dipalmitoylphosphatidylcholine bilayer. The full-length TSHR dimer and trimer models stayed in the same relative orientation and distance during 2000 ns (or longer) molecular dynamics simulation in keeping with our earlier report of TMD dimerization. Simulations were also performed to model oligomers of the leucine-rich domain alone; we found a trimeric complex to be even more stable than the dimers. These data provide further evidence that different forms of the TSHR add to the complexity of the immune response to this antigen that, in patients with autoimmune thyroid disease, generate an autoantibody reactome with multiple types of autoantibody to the TSHR. [ABSTRACT FROM AUTHOR]

Published

2024

7. Genetic and Functional Studies of Patients with Thyroid Dyshormonogenesis and Defects in the TSH Receptor (TSHR).

Author

Yeste, Diego, Baz-Redón, Noelia, Antolín, María, Garcia-Arumí, Elena, Mogas, Eduard, Campos-Martorell, Ariadna, González-Llorens, Núria, Aguilar-Riera, Cristina, Soler-Colomer, Laura, Clemente, María, Fernández-Cancio, Mónica, and Camats-Tarruella, Núria

Subjects

*CONGENITAL hypothyroidism, *CHILD patients, *NEWBORN screening, *GENETIC variation, *THYROID gland

Abstract

Genetic defects in the TSH receptor (TSHR) can cause poor thyroid differentiation (thyroid dysgenesis) and/or thyroid malfunction (thyroid dyshormonogenesis). The phenotype spectrum is wide: from severe congenital hypothyroidism to mild hyperthyrotropinemia. Over 250 TSHR variants have been published, many uncharacterized in vitro. We aimed to genetically characterize patients with thyroid dyshormonogenesis with TSHR defects and to study in vitro the effect of the genetic variants to establish the genotype–phenotype relationship. Pediatric patients with thyroid dyshormonogenesis (160 patients, Catalan CH neonatal screening program, confirmation TSH range: 18.4–100 mIU/L), were analyzed by a high-throughput gene panel. In vitro studies measuring the TSH-dependent cAMP–response–element activation were performed. Five patients with mild or severe thyroid dyshormonogenesis presented six TSHR variants, two unpublished. Each variant showed a different in vitro functional profile that was totally or partially deleterious. Depending on the genotype, some of the variants showed partial deficiency in both genotypes, whereas others presented a different effect. In conclusion, the percentage of patients with thyroid dyshormonogenesis and candidate variants in TSHR is 3.13%. Our in vitro studies contributed to the confirmation of the pathogenicity of the variants and highlighted the importance of studying the effect of the patient's genotype for a correct diagnostic confirmation. [ABSTRACT FROM AUTHOR]

Published

2024

8. Cryo-EM studies of class A GPCRs : the thyroid-stimulating hormone receptor and the β1-adrenoceptor

Author

Helfinger, Lukas and Tate, Christopher Gordon

Subjects

GPCR, thyroid-stimulating hormone receptor, TSHR, ß1-adrenoceptor

Abstract

G protein-coupled receptors (GPCRs) are integral membrane proteins with seven transmembrane domains. They are essential in intercellular communication in human physiology and represent important drug targets in human disease. While methodological advances, particularly in cryogenic electron microscopy (cryo-EM), have made more GPCRs amenable to structural studies, they remain challenging targets. During this project, the thyroid-stimulating hormone receptor (TSHR) and the β1-adrenoceptor (β1AR) were studied. The TSHR is a class A GPCR that belongs to the family of glycoprotein hormone receptors. It carries a large extracellular domain (ECD) that binds to the endogenous ligand, the thyroid stimulating hormone (TSH). In autoimmune diseases, antibodies bind to the ECD and can act as either agonists or antagonists. The aim was to investigate the structure of the previously uncharacterised full-length TSHR and gain insight into the activation mechanism. A lentivirus-based expression system for the TSHR in mammalian cells to produce sufficient quantities for structural studies by cryo-EM was developed. The purification conditions were optimised, so that the TSHR remained stable throughout the purification. Antibody fragments that activate the TSHR were purified. These components were used to assemble a stable active-state complex of antibody fragment, TSHR and heterotrimeric G protein. Vitrification of the complex was optimised, cryo-EM data were collected, and a low-resolution structure was determined. The β1AR is a class A GPCR, bearing little homology to the TSHR, which has been intensely studied and is structurally well characterised. The β1AR is of particular importance in the treatment of heart disease by beta blockers (receptor antagonists). However, current β1AR antagonists have off-target effects on the β2AR that worsens the symptoms of respiratory diseases. Novel, highly β1AR-selective antagonists have been developed, but the structural basis for their selectivity is unknown. Using these ligands, a humanised turkey β1AR was expressed and purified in complex with antibody fragments to increase the size of the complex and make it amenable to cryo-EM studies was. By using a new grid type, all-gold HexAuFoil grids, cryo-EM data of this complex could be collected and analysed.

Published

2022

9. Functional Water Channels Within the TSH Receptor: A New Paradigm for TSH Action With Disease Implications.

Author

Latif, Rauf, Davies, Terry F, and Mezei, Mihaly

Subjects

AQUAPORINS, THYROTROPIN, CELL membranes

Abstract

The thyroid-stimulating hormone receptor (TSHR) transmembrane domain (TMD) is found in the plasma membrane and consists of lipids and water molecules. To understand the role of TSHR-associated water molecules, we used molecular dynamic simulations of the TMD and identified a network of putative receptor-associated transmembrane water channels. This result was confirmed with extended simulations of the full-length TSHR with and without TSH ligand binding. While the transport time observed in the simulations via the TSHR protein was slower than via the lipid bilayer itself, we found that significantly more water traversed via the TSHR than via the lipid bilayer, which more than doubled with the binding of TSH. Using rat thyroid cells (FRTL-5) and a calcein fluorescence technique, we measured cell volumes after blockade of aquaporins 1 and 4, the major thyroid cell water transporters. TSH showed a dose-dependent ability to influence water transport, and similar effects were observed with stimulating TSHR autoantibodies. Small molecule TSHR agonists, which are allosteric activators of the TMD, also enhanced water transport, illustrating the role of the TMD in this phenomenon. Furthermore, the water channel pathway was also mapped across 2 activation motifs within the TSHR TMD, suggesting how water movement may influence activation of the receptor. In pathophysiological conditions such as hypothyroidism and hyperthyroidism where TSH concentrations are highly variable, this action of TSH may greatly influence water movement in thyroid cells and many other extrathyroidal sites where the TSHR is expressed, thus affecting normal cellular function. [ABSTRACT FROM AUTHOR]

Published

2023

10. Mouse model of Graves’ orbitopathy induced by the immunization with TSHR A and IGF-1R α subunit gene

Author

Wu, R., Li, N., Wang, X., Wang, S., Tan, J., Wang, R., and Zheng, W.

Published

2024

11. Novel Antimurine Thyroid-Stimulating Hormone Receptor Monoclonal Antibodies.

Author

Klee, Alyssa N., Torchia, James A., and Freeman, Gordon J.

Subjects

*MONOCLONAL antibodies, *HORMONE receptors, *RECEPTOR antibodies, *AUTOIMMUNE thyroiditis, *THYROID diseases

Abstract

Autoantibodies against thyroid proteins are present in several thyroid diseases. Thyroid-stimulating hormone receptor (TSHR) is a G-protein-coupled receptor (GPCR) that binds to thyroid-stimulating hormone (TSH) and stimulates production of thyroxine (T4) and triiodothyronine (T3). When agonized by anti-TSHR autoantibodies, aberrant production of thyroid hormone can lead to Graves' Disease (GD). In Hashimoto's thyroiditis (HT), anti-TSHR autoantibodies target the thyroid for immune attack. To better understand the role of anti-TSHR antibodies in thyroid disease, we generated a set of rat antimouse (m)TSHR monoclonal antibodies with a range of affinities, blocking of TSH, and agonist activity. These antibodies could be used to investigate the etiology and therapy of thyroid disease in mouse models and as building blocks in protein therapeutics that target the thyroid for treatment in either HT or GD. [ABSTRACT FROM AUTHOR]

Published

2023

12. Chimeric antigen receptor T-cell therapy for relapsed and refractory thyroid cancer

Author

Jing Ding, Deyu Li, Xingchen Liu, Hu Hei, Baoxi Sun, Dongmin Zhou, Keshu Zhou, and Yongping Song

Subjects

Thyroid cancer, CAR-T, Relapsed and refractory, TSHR, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract The prognosis of most thyroid cancer patients is excellent, but for those with advanced or metastatic thyroid cancer, effective treatments are still lacking. Chimeric antigen receptor (CAR) T-cell therapy has gained remarkable achievements in hematologic malignancy but shown limited efficacy in solid tumors. In this report, we showed a relapsed and refractory thyroid cancer patient treated with TSHR + CD19 CAR-T, a combination of two 2nd generation CAR-T molecules targeting both TSHR and CD19. This patient finally achieved partial remission at 3 months and was tolerate well to the regimen. Our study suggested that the CAR-T therapy could be a feasible way in treating relapsed and refractory thyroid cancer.

Published

2022

13. Structure of full-length TSH receptor in complex with antibody K1-70™.

Author

Miguel, Ricardo Núñez, Sanders, Paul, Allen, Lloyd, Evans, Michele, Holly, Matthew, Johnson, William, Sullivan, Andrew, Sanders, Jane, Furmaniak, Jadwiga, and Smith, Bernard Rees

Subjects

*RECEPTOR antibodies, *HORMONE receptors, *THYROTROPIN receptors, *AUTOANTIBODIES, *MONOMERS

Abstract

Determination of the full-length thyroid-stimulating hormone receptor (TSHR) structure by cryo-electron microscopy (cryo-EM) is described. The TSHR complexed with human monoclonal TSHR autoantibody K1-70™ (a powerful inhibitor of TSH action) was detergent solubilised, purified to homogeneity and analysed by cryo-EM. The structure (global resolution 3.3 Å) is a monomer with all three domains visible: leucine-rich domain (LRD), hinge region (HR) and transmembrane domain (TMD). The TSHR extracellular domain (ECD, composed of the LRD and HR) is positioned on top of the TMD extracellular surface. Extensive interactions between the TMD and ECD are observed in the structure, and their analysis provides an explanation of the effects of various TSHR mutations on TSHR constitutive activity and on ligand-induced activation. K1-70™ is seen to be well clear of the lipid bilayer. However, superimposition of M22™ (a human monoclonal TSHR autoantibody which is a powerful stimulator of the TSHR) on the cryo-EM structure shows that it would clash with the bilayer unless the TSHR HR rotates upwards as part of the M22™ binding process. This rotation could have an important role in TSHR stimulation by M22™ and as such provides an explanation as to why K1-70™ block s the binding of TSH and M22™ without activating the receptor itself. [ABSTRACT FROM AUTHOR]

Published

2023

14. Modeling TSH Receptor Dimerization at the Transmembrane Domain.

Author

Mezei, Mihaly, Latif, Rauf, and Davies, Terry F

Subjects

THYROTROPIN receptors, CELLULAR signal transduction, DIMERIZATION

Abstract

Biophysical studies have established that the thyrotropin (TSH) receptor (TSHR) undergoes posttranslational modifications including dimerization. Following our earlier simulation of a TSHR–transmembrane domain (TMD) monomer (called TSHR-TMD-TRIO) we have now proceeded with a molecular dynamics simulation (MD) of TSHR-TMD dimerization using this improved membrane-embedded model. The starting structure was the TMD protein with all extracellular and intracellular loops and internal waters, which was placed in the relative orientation of the model originally generated with Brownian dynamics. Furthermore, this model was embedded in a DPPC lipid bilayer further solvated with water and added salt. Data from the MD simulation studies showed that the dimeric subunits stayed in the same relative orientation and distance during the 1000 ns of study. Comparison of representative conformations of the individual monomers when dimerized with the conformations from the monomer simulation showed subtle differences as represented by the backbone root mean square deviations. Differences in the conformations of the ligand-binding sites, suggesting variable affinities for these "hot spots," were also revealed by comparing the docking scores of 46 small-molecule ligands that included known TSHR agonists and antagonists as well as their derivatives. These data add further insight into the tendency of the TSHR-TMD to form dimeric and oligomeric structures and show that the differing conformations influence small-molecule binding sites within the TMD. [ABSTRACT FROM AUTHOR]

Published

2022

15. Linsitinib Decreases Thyrotropin-Induced Thyroid Hormone Synthesis by Inhibiting Crosstalk Between Thyroid-Stimulating Hormone and Insulin-Like Growth Factor 1 Receptors in Human Thyrocytes In Vitro and In Vivo in Mice.

Author

Boutin A, Eliseeva E, Templin S, Marcus-Samuels B, Anderson DE, Gershengorn MC, and Neumann S

Abstract

Background: Thyrotropin receptor (TSHR) and insulin-like growth factor 1 receptor (IGF-1R) have been shown to crosstalk in primary cultures of human thyrocytes (hThyros) and Graves' orbital fibroblasts. The phenomenon of TSHR/IGF-1R crosstalk has been largely studied in the pathogenesis of thyroid eye disease (TED) in human orbital fibroblasts. Here, we investigated the effects of inhibiting the IGF-1R-mediated contribution to crosstalk by linsitinib (Lins), a small-molecule IGF-1R kinase inhibitor, on TSH-induced regulation of thyroperoxidase (TPO) and thyroglobulin (TG) mRNAs and proteins in hThyros in vitro, and on TPO and TG mRNAs and free thyroxine (fT4) levels in vivo in mice. Methods: Steady-state levels of mRNAs of TPO and TG in hThyros in vitro and mouse thyroid glands were measured by RT-qPCR. Human TG (hTG) and human TPO (hTPO) proteins in human thyroid cell cultures were measured by Western blot or ELISA. Translation rates of hTG were quantified by stable isotope labeling by amino acids method (SILAC). Thyroidal mouse Tpo (m Tpo ) and Tg (m Tg ) mRNAs and fT4 in mice were assessed after Lins administration on 3 consecutive days followed by an intraperitoneal dose of bovine TSH (bTSH) 3 hours prior to drawing blood. Results: In primary cultures of hThyros, Lins inhibited bTSH-induced upregulation of hTPO mRNA by 61.5%, and hTPO protein was inhibited by 42.4%. There was no effect of Lins on hTG mRNA, but Lins inhibited the upregulation of secreted and cell-associated hTG protein by 50.1% and 42.2%, respectively, by inhibiting hTG mRNA translation. m Tpo mRNA measured in thyroid glands after treatment with Lins was reduced by 31.5%. There was no effect of Lins on m Tg mRNA, however, Lins decreased fT4 levels in mice under basal (endogenous mTSH levels) and bTSH-treated conditions. Conclusions: The IGF-1R antagonist Lins inhibited bTSH-stimulated hTG and hTPO protein expression in primary cultures of hThyros and fT4 levels in mice. We suggest that thyroid function studies be monitored when Lins is administered to humans, for example, if it is used to treat TED.

Published

2024

16. 2'-O-Galloylhyperin Prevents Tissue Remodeling in Thyroid Eye Disease: Prospects as a Thyrotropin Receptor Antagonist.

Author

Guo Y, Liu B, Liang W, Cheng Y, Li H, Guan H, Xiao H, and Li Y

Abstract

Context: Thyroid eye disease (TED) is a challenging condition owing to relentless orbital tissue remodeling, with thyrotropin receptor (TSHR) in orbital fibroblasts (OFs) serving as a promising therapeutic target., Objective: This study seeks to discover potential TSHR inhibitors among US Food and Drug Administration (FDA)-approved drugs and evaluate their effects on TED-OFs., Methods: Adipose tissues were sourced from the patients with or without TED. Isolated OFs were cultivated in proliferation medium or stimulated for adipogenic/fibrotic differentiation in 2-dimensional/3-dimenstional models, treated with 2'-O-galloylhyperin (2'-O-GH) (0, 5, 20, and 50 μM). Using structure-based virtual screening (SBVS), potential TSHR antagonists were identified. Cellular proliferation was analyzed by 5-ethynyl-2'-deoxyuridine (EdU) incorporation, flow cytometry, and spheroid size. Adipogenesis was determined by Oil Red O staining, Western blot, and immunofluorescence (IF). Fibrosis was assessed using wound-healing assays, Western blot and IF. Cyclic adenosine monophosphate (cAMP), hyaluronan (HA), and cytokine were quantified by enzyme-linked immunosorbent assay., Results: Herein, the FDA-approved drug 2'-O-GH dose-dependently decreased cAMP production and the subsequent cAMP-response element binding protein (CREB) phosphorylation stimulated by a TSHR-stimulating monoclonal autoantibody M22, which was reversed by a consistently activated mutation of TSHR (L629F). As expected, 2'-O-GH attenuated lipid accumulation in TED-OFs, along with downregulation of key adipogenic markers, and 2'-O-GH ameliorated HA production during adipogenesis. Notably, 2'-O-GH dampened wound closure and fibrotic differentiation of TED-OF stimulated by transforming growth factor beta 1. Correspondingly, proliferation of TED-OFs was halted by 2'-O-GH., Conclusion: 2'-O-GH is promising for prevention of tissue remodeling of TED by exerting inhibitory effects on proliferation, differentiation, and HA deposition by inhibiting TSHR activation, implying its potential therapeutic value for TED., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Endocrine Society.)

Published

2024

17. THSR Mediated MiR374b Targeting C / EBP β / FOXO1 to Accelerate Thyroid Stimulating Hormone-Induced Hepatic Steatosis.

Author

Li J, Ge Y, Chai Y, Kou C, Sun TT, Liu J, and Zhang H

Abstract

Purpose: Thyroid-stimulating hormone (TSH) has been identified as an independent risk factor for non-alcoholic fatty liver disease (NAFLD), TSH binds to the TSH receptor (TSHR) to exert its function. However, the underlying mechanisms by which TSHR influences NAFLD development remain unclear. This study investigates the role of miR374b in NAFLD progression., Methods: Firstly, a rat model of non-alcoholic fatty liver was constructed and divided into a normal group and a model group. The liver tissue pathology and fat accumulation were detected by Oil Red O staining and hematoxylin-eosin staining. Western blot and Real time PCR were used to detect for the impact of TSHR/miR-374b/C/EBP β/ FoxO1 pathway in the NAFLD model, and the expression of relevant inflammatory factors in each group was detected by ELISA assay. A NAFLD cell model was constructed using HepG2 cells, TSHR overexpression and interference, combined with miR-374b inhibitor and mimics, were transfected simultaneously to demonstrate TSHR/miR-374b/C/EBP β/ The mechanism of FoxO1 adipogenesis in vitro., Results: TSHR stimulates miR374b secretion in human liver cancer cells (HepG2) and promotes lipid accumulation in the liver. Deficiency of miR374b in HepG2 cells attenuated NAFLD progression. Mechanistically, TSH increases miR374b expression, which then suppresses the transcription of its target genes, CCAAT/enhancer binding protein-b ( C/EBP β ) and Forkhead Box Protein O1 ( FOXO1 ). This suppression influences the expression of downstream lipid metabolism proteins, including PPARγ, SREBP2, and SREBP1c. Additionally, miR374b directly targets the 3'UTR of C/EBP β and FOXO1 , establishing a negative feedback loop in lipid metabolism., Conclusion: These findings suggest that TSHR-induced upregulation of miR374b accelerates NAFLD progression by modulating lipid metabolism pathways through C/EBP β and FOXO1., Competing Interests: Juyi Li was contributed as first author. The authors report no conflicts of interest in this work., (© 2024 Li et al.)

Published

2024

18. ELF3-induced miR-182 inhibits adipogenic differentiation in Graves' orbitopathy by targeting thyrotropin receptor.

Author

SHA WANG, LU CHEN, and BEI XU

Subjects

*STAINS & staining (Microscopy), *THYROTROPIN receptors, *ADIPOKINES, *ADIPOSE tissues, *AUTOIMMUNE diseases

Abstract

Introduction: Graves' orbitopathy (GO) is a common autoimmune disease, but its specific pathogenesis has not been fully elucidated. MicroRNAs (miRNAs) possess an important regulatory function in the occurrence and development of autoimmune diseases. In the present study, we explored the potential role of miR-182 in the diagnosis of GO. Material and methods: The expression of miR-182, thyrotropin receptor (TSHR) and adipocytokines was ascertained by qRT-PCR assay. The triglyceride (TG) content was ascertained by ELISA assay. The lipid droplet content was identified by Oil Red O staining. The relationship between E74-like factor 3 (ELF3), miR-182 and TSHR was confirmed by ChIP, dual-luciferase reporter assay and RIP. Results: The expression of miR-182 decreased, while TSHR increased, and adipocytokine (adiponectin, leptin, PPAR-1, and AP2) levels were upregulated in preorbital adipose tissue of patients with GO and differential medium induced (DM-induced) 3T3-L1 cells. MiR-182 mimics inhibited adipocytokine expression, TG content and lipid droplets; however, miR-182 inhibitor had the opposite results. TSHR was a target gene of miR-182, and TSHR overexpression (oe-TSHR) reversed the effect of miR-182 mimics on adipogenic differentiation of 3T3-L1 by DM treatment. ELF3 transcription promoted miR-182 expression. Oe-ELF3 inhibited adipocytokine expression and reduced TG content and lipid droplets in DM-induced 3T3-L1 cells. MiR-182 inhibitor reversed the effect of oe-ELF3 on adipogenic differentiation in 3T3-L1. Conclusions: ELF3/miR-182/TSHR axis alleviated Graves' orbitopathy by inhibiting adipogenic differentiation. [ABSTRACT FROM AUTHOR]

Published

2022

19. Proximity ligation assay to study TSH receptor homodimerization and crosstalk with IGF-1 receptors in human thyroid cells.

Author

Krieger, Christine C., Boutin, Alisa, Neumann, Susanne, and Gershengorn, Marvin C.

Subjects

NUCLEIC acid hybridization, THYROTROPIN receptors, GENE amplification, THYROTROPIN, THYROID gland, SENSITIVITY & specificity (Statistics)

Abstract

Proximity ligation assay (PLA) is a methodology that permits detection of protein-protein closeness, that is, proteins that are within 40 nanometers of each other, in cells or tissues at endogenous protein levels or after exogenous overexpression. It detects the protein(s) with high sensitivity and specificity because it employs a DNA hybridization step followed by DNA amplification. PLA has been used successfully with many types of proteins. In this methods paper, we will describe the workings of PLA and provide examples of its use to study TSH/IGF-1 receptor crosstalk in Graves' orbital fibroblasts (GOFs) and TSH receptor homodimerization in primary cultures of human thyrocytes. [ABSTRACT FROM AUTHOR]

Published

2022

20. Chimeric antigen receptor T-cell therapy for relapsed and refractory thyroid cancer.

Author

Ding, Jing, Li, Deyu, Liu, Xingchen, Hei, Hu, Sun, Baoxi, Zhou, Dongmin, Zhou, Keshu, and Song, Yongping

Subjects

THYROID cancer, CHIMERIC antigen receptors, T cells, HEMATOLOGIC malignancies, CANCER patients

Abstract

The prognosis of most thyroid cancer patients is excellent, but for those with advanced or metastatic thyroid cancer, effective treatments are still lacking. Chimeric antigen receptor (CAR) T-cell therapy has gained remarkable achievements in hematologic malignancy but shown limited efficacy in solid tumors. In this report, we showed a relapsed and refractory thyroid cancer patient treated with TSHR + CD19 CAR-T, a combination of two 2nd generation CAR-T molecules targeting both TSHR and CD19. This patient finally achieved partial remission at 3 months and was tolerate well to the regimen. Our study suggested that the CAR-T therapy could be a feasible way in treating relapsed and refractory thyroid cancer. [ABSTRACT FROM AUTHOR]

Published

2022

21. It Takes Two to Tango: IGF-I and TSH Receptors in Thyroid Eye Disease.

Author

Girnita, Leonard, Smith, Terry J., and Janssen, Joseph A. M. J. L.

Subjects

THYROID eye disease, SOMATOMEDIN C, FIBROBLASTS

Abstract

Context: Thyroid eye disease (TED) is a complex autoimmune disease process. Orbital fibroblasts represent the central orbital immune target. Involvement of the TSH receptor (TSHR) in TED is not fully understood. IGF-I receptor (IGF-IR) is overexpressed in several cell types in TED, including fibrocytes and orbital fibroblasts. IGF-IR may form a physical and functional complex with TSHR.Objective: Review literature relevant to autoantibody generation in TED and whether these induce orbital fibroblast responses directly through TSHR, IGF-IR, or both.Evidence: IGF-IR has traditionally been considered a typical tyrosine kinase receptor in which tyrosine residues become phosphorylated following IGF-I binding. Evidence has emerged that IGF-IR possesses kinase-independent activities and can be considered a functional receptor tyrosine kinase/G-protein-coupled receptor hybrid, using the G-protein receptor kinase/β-arrestin system. Teprotumumab, a monoclonal IGF-IR antibody, effectively reduces TED disease activity, proptosis, and diplopia. In addition, the drug attenuates in vitro actions of both IGF-I and TSH in fibrocytes and orbital fibroblasts, including induction of proinflammatory cytokines by TSH and TED IgGs.Conclusions: Although teprotumumab has been proven effective and relatively safe in the treatment of TED, many questions remain pertaining to IGF-IR, its relationship with TSHR, and how the drug might be disrupting these receptor protein/protein interactions. Here, we propose 4 possible IGF-IR activation models that could underlie clinical responses to teprotumumab observed in patients with TED. Teprotumumab is associated with several adverse events, including hyperglycemia and hearing abnormalities. Underpinning mechanisms of these are being investigated. Patients undergoing treatment with drug must be monitored for these and managed with best medical practices. [ABSTRACT FROM AUTHOR]

Published

2022

22. The Role of TSHR, PTEN and RASSF1A Promoters' Methylation Status for Non-Invasive Detection of Papillary Thyroid Carcinoma.

Author

Klimaitė, Raimonda, Kazokaitė, Mintautė, Kondrotienė, Aistė, Daukšienė, Dalia, Sabaliauskaitė, Rasa, Žukauskaitė, Kristina, Žilaitienė, Birutė, Jarmalaitė, Sonata, and Daukša, Albertas

Subjects

*THYROID cancer, *PAPILLARY carcinoma, *METHYLATION, *DNA methylation, *LYMPHATIC metastasis, *POLYMERASE chain reaction, *THYROIDECTOMY

Abstract

Aim: We investigated whether a difference exists between TSHR, PTEN and RASSF1A methylation status in plasma of subjects with papillary thyroid cancer (PTC). Methods: Peripheral blood samples were collected from 68 patients with PTC and 86 healthy controls (HC). Thyroid cancer tissue and corresponding adjacent normal tissue methylation levels were analyzed. DNA methylation level changes in TSHR, PTEN and RASSF1A genes were analyzed by quantitative methylation-sensitive polymerase chain reaction. Results: We observed that the methylation level of TSHR was significantly higher in the thyroid cancer tissue compared to adjacent normal tissue (p = 0.040). TSHR methylation levels in the PTC group plasma samples were significantly higher compared to HC (p = 0.022). After surgery, PTC plasma samples showed lower TSHR and PTEN methylation levels compared to the levels before surgery (p = 0.003, p = 0.031, respectively). The TSHR methylation level was significantly higher in PTC with larger tumor size (>2 cm) (p < 0.001), and lymph node metastases (p = 0.01), lymphovascular invasion (p = 0.02) and multifocality (p = 0.013) 0ROC analysis revealed that the TSHR methylation level provides high accuracy in distinguishing PTC from HC (p = 0.022, AUC of 0.616). Conclusion: TSHR methylation in peripheral blood samples is expected to be a sensitive and specific minimally invasive tool for the diagnosis of PTC, especially in combination with other diagnostic means. [ABSTRACT FROM AUTHOR]

Published

2022

23. Computational model of the full-length TSH receptor

Author

Mihaly Mezei, Rauf Latif, and Terry F Davies

Subjects

TSHR, transmembrane domain, molecular dynamics, hinge region, linker region, TSH, Medicine, Science, Biology (General), QH301-705.5

Abstract

(GPCR)The receptor for TSH receptor (TSHR), a G protein coupled receptor (GPCR), is of particular interest as the primary antigen in autoimmune hyperthyroidism (Graves’ disease) caused by stimulating TSHR antibodies. To date, only one domain of the extracellular region of the TSHR has been crystallized. We have run a 1000 ns molecular dynamic simulation on a model of the entire TSHR generated by merging the extracellular region of the receptor, obtained using artificial intelligence, with our recent homology model of the transmembrane domain, embedded it in a lipid membrane and solvated it with water and counterions. The simulations showed that the structure of the transmembrane and leucine-rich domains were remarkably constant while the linker region (LR), known more commonly as the ‘hinge region,’ showed significant flexibility, forming several transient secondary structural elements. Furthermore, the relative orientation of the leucine-rich domain with the rest of the receptor was also seen to be variable. These data suggest that this LR is an intrinsically disordered protein. Furthermore, preliminary data simulating the full TSHR model complexed with its ligand (TSH) showed that (a) there is a strong affinity between the LR and TSH ligand and (b) the association of the LR and the TSH ligand reduces the structural fluctuations in the LR. This full-length model illustrates the importance of the LR in responding to ligand binding and lays the foundation for studies of pathologic TSHR autoantibodies complexed with the TSHR to give further insight into their interaction with the flexible LR.

Published

2022

24. Expression of Tshb and Tshr in the ricefield eel Monopterus albus: Potential paracrine/autocrine roles in gonads.

Author

Yang, Xu, Wu, Yangsheng, Zhang, Shen, Gan, Riping, Wang, Zhe, Zhang, Lihong, and Zhang, Weimin

Subjects

*GENE expression, *THYROID hormone receptors, *SERTOLI cells, *THYROTROPIN, *GONADS

Abstract

• Antiserum against ricefield eel Tshb or Tshr generated is of high specificity. • Tsh cells are localized to the inner areas of the adenohypophysis. • Tshb and Tshr expression detected in the ovary and testis at mRNA and protein levels. • Tsh may be produced locally in gonads and potentially play paracrine/autocrine roles. Thyroid stimulating hormone (TSH), a glycoprotein synthesized and secreted from thyrotrophs of the pituitary gland, is composed of a glycoprotein hormone common alpha subunit (CGA) and a specific beta subunit (TSHB). The major biological function of TSH is to stimulate thyroidal follicles to synthesize and secrete thyroid hormones through activating its cognate receptor, the thyroid stimulating hormone receptor (TSHR). In the present study, polyclonal antisera against ricefield eel Tshb and Tshr were generated respectively, and the expression of Tshb and Tshr was examined at mRNA and protein levels. RT-PCR analysis showed that tshb mRNA was expressed mainly in the pituitary as well as in some extrapituitary tissues including the ovary and testis. Tshr mRNA was also expressed in a tissue-specific manner, with transcripts detected in tissues including the kidney, ovary, and testis. The immunoreactive Tshb signals in the pituitary were shown to be localized to the inner areas of adenohypophysis which are close to the neurohypophysis of adult ricefield eels. Tshb-immunoreatvie cells in the pituitary of ricefield eel larvae were firstly observed at hatching. The expression of immunoreactive Tshb and Cga was also detected in ricefield eel ovary and testis together with Tshr. In the ovary, immunoreactive Tshb, Cga, and Tshr were observed in oocytes and granulosa cells. In the testis, immunoreactive Tshb was mainly observed in Sertoli cells while immunoreactive Cga and Tshr were detected in germ cells as well as somatic cells. Results of the present study suggest that Tsh may be synthesized both in the ovary and testis locally, which may play paracrine and/or autocrine roles in gonadal development in ricefield eels. [ABSTRACT FROM AUTHOR]

Published

2024

25. Genome-wide scan for selection signatures and genes related to heat tolerance in domestic chickens in the tropical and temperate regions in Asia

Author

Xing Guo, Chao-Hui Xing, Wei Wei, Xue-Fang Zhang, Zheng-Yu Wei, Lei-Lei Ren, Jin-Jin Jiang, Min Li, Jiang-Xian Wang, Xin-Xin He, Ming-Shan Wang, and Run-Shen Jiang

Subjects

chicken, heat tolerance, TSHR, adaptation, genome sequencing, Animal culture, SF1-1100

Abstract

ABSTRACT: Heat stress is one of the major environmental stressors challenging the global poultry industry. Identifying the genes responsible for heat tolerance is fundamentally important for direct breeding programs. To uncover the genetic basis underlying the ambient temperature adaptation of chickens, we analyzed a total of 59 whole genomes from indigenous chickens that inhabit South Asian tropical regions and temperate regions from Northern China. We applied FST and π-ratio to scan selective sweeps and identified 34 genes with a signature of positive selection in chickens from tropical regions. Several of these genes are functionally implicated in metabolism (FABP2, RAMP3, SUGCT, and TSHR) and vascular smooth muscle contractility (CAMK2), and they may be associated with adaptation to tropical regions. In particular, we found a missense mutation in thyroid-stimulating hormone receptor (41020238:G>A) that shows significant differences in allele frequency between the chicken populations of the two regions. To evaluate whether the missense mutation in TSHR could enhance the heat tolerance of chickens, we constructed segregated chicken populations and conducted heat stress experiments using homozygous mutations (AA) and wild-type (GG) chickens. We found that GG chickens exhibited significantly higher concentrations of alanine aminotransferase, lactate dehydrogenase, and creatine kinase than AA chickens under heat stress (35 ± 1°C) conditions (P < 0.05). These results suggest that TSHR (41020238:G>A) can facilitate heat tolerance and adaptation to higher ambient temperature conditions in tropical climates. Overall, our results provide potential candidate genes for molecular breeding of heat-tolerant chickens.

Published

2022

26. Moderating Role of TSHR and PTPN22 Gene Polymorphisms in Effects of Excessive Fluoride on Thyroid: a School-Based Cross-Sectional Study.

Author

Wang, Yang, Cui, Yushan, Zhang, Dandan, Chen, Chen, Hou, Changchun, and Cao, Lichun

Abstract

We aimed to investigate the relationship between the effects excessive of fluoride on thyroid health in children and the moderating role of thyroid stimulating hormone receptor (TSHR) or protein tyrosine phosphatase nonreceptor-22 (PTPN22) gene polymorphisms. Four hundred thirteen children (141 with dental fluorosis and 198 boys) were enrolled from both historical endemic and non-endemic areas of fluorosis in Tianjin, China. The fluoride exposure levels, thyroid health indicators, and TSHR (rs2268458) and PTPN22 (rs3765598) polymorphisms were examined. Multiple logistic models were applied to evaluate the relationship between dental fluorosis and thyroid abnormalities. Children over 9 year old with dental fluorosis have lower FT4 and TGAb levels and thyroid volume and higher TPOAb levels (all P < 0.05). In overall participants, children with dental fluorosis were more likely to have thyroid antibody single positive issues (adjusted P = 0.039) and less likely to have a goiter according to age or body surface area (age or BSA) (adjusted P = 0.003); In the TSHR (rs2268458) SNP = CC/CT or PTPN22 (rs3765598) SNP = CC subgroup, dental fluorosis may cause thyroid antibody single positive (adjusted P = 0.036; adjusted P = 0.002); in the TSHR (rs2268458) SNP = TT or PTPN22 (rs3765598) SNP = CC subgroup, dental fluorosis may protect children from goiter (age or BSA) (adjusted P = 0.018; adjusted P = 0.013). Excessive fluoride may induce thyroid antibody single positive and reduce goiter in children. Heterogeneity exists in the relationship between excessive fluoride and thyroid antibody single positive or goiter issues across children carrying different TSHR (rs2268458) or PTPN22 (rs3765598) genotypes. [ABSTRACT FROM AUTHOR]

Published

2022

27. Peripheral blood mononuclear cells - Can they provide a clue to the pathogenesis of Graves' Orbitopathy?

Author

Basak, Madhurima, Sanyal, Tamalika, Kar, Anish, Bhattacharjee, Pritha, Das, Madhusudan, and Chowdhury, Subhankar

Abstract

Purpose: Graves' disease (GD) is an autoimmune disorder affecting primarily the thyroid gland. The most common extrathyroidal manifestation of GD is known as Graves' orbitopathy (GO). Bone marrow-derived fibrocytes represent a subset of monocytes in peripheral blood mononuclear cells (PBMCs), infiltrate the orbital tissues, and contribute to the pathogenesis of GO. Hence objectives of the study included whether the concentration of fibrocytes in peripheral blood was higher in GO, whether TSHR m RNA expression and TSHR surface expression in peripheral blood were higher in GO in comparison to Graves' Disease (GD) and Control subjects. Methods: The percentage of circulating fibrocytes (FC) along with TSHR on its cell surface (CD 34+, CD 45+, CXCR4+, Collagen 1+, TSHR+) were assessed by flow cytometry of 50 patients with GD and GO and 15 healthy donors (Control). TSHR mRNA expression was measured by q RT PCR. Result: The concentration of circulating fibrocytes was significantly higher in GO compared to GD and control [GO 17% vs GD 3% vs control 0.7% (p < 0.05)]. Moreover, these fibrocytes express a significantly higher level of TSHR in GO. This was corroborated by the measure of TSH mRNA; in GD it was 2.3-fold higher and in GO it was 3.9 fold higher than in control, in GO this transcript level was 1.7fold higher than GD (p < 0.05). TSHR+ fibrocytes were significantly positively correlated with CAS (p = 0.004) and negatively correlated with age (p = 0.01) and duration of disease (p = 0.01) in GO. Conclusion: This study sheds further light on the pathogenesis of GO. [ABSTRACT FROM AUTHOR]

Published

2022

28. Signaling Dynamics of TSHR-Specific CAR-T Cells Revealed by FRET-Based Biosensors

Author

Jing Zhou, Jiangqing Chen, Yanjie Huang, Xiaofei Gao, Chun Zhou, Xianhui Meng, and Jie Sun

Subjects

FRET, ERK, ZAP70, CAR-T, TSHR, thyroid cancer, Biology (General), QH301-705.5

Abstract

Although most patients with thyroid cancers have good prognosis and long-term survival, some patients are refractory to traditional therapeutic approaches and face a high risk of mortality. CAR-T therapy provides an attractive strategy to treat these patients. Considering the limited expression in thyroid tissues, thyroid-stimulating hormone receptor (TSHR) has been considered as a promising candidate as CAR-T target. However, it is still a challenge to find the optimal CAR design for the treatment of thyroid cancers. Dynamic signaling cascade is initiated by CAR molecules during CAR-T cell activation. The development of FRET-based biosensors enables us to detect the signaling dynamics of key kinases during CAR-T cell activation with high spatiotemporal resolution. Here using the ZAP70 and ERK biosensors, we visualized the dynamics of ZAP70 and ERK activities in TSHR-specific CAR-T cells upon antigen stimulation. We first constructed several TSHR-targeting CARs for the treatment of advanced thyroid cancers. The TSHR CAR-T cells with CD28 or 4-1BB co-stimulatory signaling domains exhibited potent cytotoxicity in vitro. By FRET imaging, we observed rapid increase of ZAP70 and ERK activities in TSHR CAR-T cells upon target cell binding. Even though CD28-based CAR-T cells had similar ZAP70 activation dynamics as 4-1BB-based CAR-T cells, they displayed slightly enhanced ERK activation, which may contribute to their faster anti-tumor kinetics in vivo. These results demonstrated the efficacy of TSHR CAR-T cells to treat advanced thyroid cancers. Our study indicated the potential of applying FRET biosensors to optimize the design of CAR for effective CAR-T therapy.

Published

2022

29. PET Imaging of Differentiated Thyroid Cancer with TSHR-Targeted [ 89 Zr]Zr-TR1402.

Author

Gimblet GR, Houson HA, Whitt J, Reddy P, Copland JA, Kenderian SS, Szkudlinski MW, Jaskula-Sztul R, and Lapi SE

Subjects

Animals, Humans, Mice, Cell Line, Tumor, Female, Radiopharmaceuticals pharmacokinetics, Radiopharmaceuticals chemistry, Tissue Distribution, Male, Radioisotopes chemistry, Thyroid Neoplasms diagnostic imaging, Thyroid Neoplasms metabolism, Thyroid Neoplasms pathology, Zirconium chemistry, Positron-Emission Tomography methods, Receptors, Thyrotropin metabolism, Receptors, Thyrotropin genetics, Mice, Nude

Abstract

Thyroid cancer is the most common endocrine cancer, with differentiated thyroid cancers (DTCs) accounting for 95% of diagnoses. While most DTC patients are diagnosed and treated with radioiodine (RAI), up to 20% of DTC patients become RAI refractory (RAI-R). RAI-R patients have significantly reduced survival rates compared to patients who remain RAI-avid. This study explores [ 89 Zr]Zr-TR1402 as a thyroid-stimulating hormone receptor (TSHR)-targeted PET radiopharmaceutical for DTC. [ 89 Zr]Zr-TR1402 was synthesized with a molar activity of 25.9 MBq/nmol by conjugating recombinant human TSH (rhTSH) analogue TR1402 to chelator p-SCN-Bn-deferoxamine (DFO) in a molar ratio of 3:1 (DFO/TR1402) and radiolabeling with 89 Zr ( t 1/2 = 22.7%). As TSHR is absent in commonly available DTC-derived cell lines, TSHR was reintroduced via stable transduction by delivering a lentivirus containing the full-length coding region of the human TSHR gene. Receptor-mediated uptake of [ + = 22.7%). As TSHR is absent in commonly available DTC-derived cell lines, TSHR was reintroduced via stable transduction by delivering a lentivirus containing the full-length coding region of the human TSHR gene. Receptor-mediated uptake of [ 89 in stably transduced TSHR+ and wild-type TSHR- DTC cell lines. in vitro PET imaging was performed on Days 1-3 postinjection in male and female athymic nude mice bearing TSHR+ and TSHR- xenografts, along with In vivo PET imaging was performed on Days 1-3 postinjection in male and female athymic nude mice bearing TSHR+ and TSHR- xenografts, along with ex vivo biodistribution on Day 3 postinjection. In vitro Zr]Zr-TR1402 was significantly higher in TSHR+ THJ529T ( 89 Zr]Zr-TR1402 was significantly higher in TSHR+ THJ529T ( P < 0.01) cells than in TSHR- THJ529T and FTC133 cells. This uptake was shown to be specific in both TSHR+ THJ529T ( P < 0.0001) and TSHR+ FTC133 ( P < 0.0001) and TSHR+ FTC133 ( P < 0.0001) cells by blocking uptake with 250 nm DFO-TR1402. In vivo Zr]Zr-TR1402 in TSHR+ tumors, which was the highest on Day 1. In the male FTC133 xenograft model, 89 Zr]Zr-TR1402 in TSHR+ tumors, which was the highest on Day 1. In the male FTC133 xenograft model, ex vivo biodistribution confirmed a significant difference ( P < 0.001) in uptake between FTC133+ (1.3 ± 0.1%ID/g) and FTC133- (0.8 ± 0.1%ID/g) tumors. A significant difference ( P < 0.05) in uptake was also seen in the male THJ529T xenograft model between THJ529T+ (1.8 ± 0.6%ID/g) and THJ529T- (0.8 ± 0.4%ID/g) tumors. The in vitro and in vivo Zr]Zr-TR1402 in TSHR-expressing DTC cell lines support the continued preclinical optimization of this approach.89 Zr]Zr-TR1402 in TSHR-expressing DTC cell lines support the continued preclinical optimization of this approach.

Published

2024

30. Combined approaches identify known and novel genes associated with sheep litter size and non‐seasonal breeding.

Author

Tao, Lin, Wang, Xiangyu, Zhong, Yingjie, Liu, Qiuyue, Xia, Qing, Chen, Si, He, Xiaoyun, Di, Ran, and Chu, Mingxing

Subjects

*SHEEP breeding, *GENOME-wide association studies, *HOMOZYGOSITY, *SHEEP, *GENES, *MISSENSE mutation, *SEASONS

Abstract

Summary: Improvement of ewe reproduction is considerable by appropriately increasing litter size and sustaining non‐seasonal breeding. However, their genetic makeups have not been entirely elucidated. Genome‐wide analyses of 821 individuals were performed by combining three genomic approaches (genome‐wide association study, XP‐nSL, and runs of homozygosity). Consequently, 35 candidate genes including three domestication genes (TSHR, GTF2A1, and KITLG) were identified. Other than the FecB mutation at BMPR1B, we described a significant association of a missense mutation rs406686139 at seasonal lambing‐associated TSHR gene with litter size. Some promising novel genes may be relevant for sheep reproduction by multitude biological processes, such as FETUB functioning in fertilization, HNRNPA1 in oogenesis, DCUN1D1 in spermatogenesis, and HRG in fertility outcome. The present study suggests that improvement of ewe reproduction is attributed to selective breeding, and casts light on the genetic basis and improvement of sheep reproduction. [ABSTRACT FROM AUTHOR]

Published

2021

31. Orbital Signaling in Graves' Orbitopathy.

Author

Draman, Mohd Shazli, Zhang, Lei, Dayan, Colin, and Ludgate, Marian

Subjects

INSULIN-like growth factor receptors, SOMATOMEDIN C, THYROTROPIN receptors, TISSUE remodeling, CELLULAR signal transduction, THYROID diseases

Abstract

Graves' orbitopathy (GO) is a complex and poorly understood disease in which extensive remodeling of orbital tissue is dominated by adipogenesis and hyaluronan production. The resulting proptosis is disfiguring and underpins the majority of GO signs and symptoms. While there is strong evidence for the thyrotropin receptor (TSHR) being a thyroid/orbit shared autoantigen, the insulin-like growth factor 1 receptor (IGF1R) is also likely to play a key role in the disease. The pathogenesis of GO has been investigated extensively in the last decade with further understanding of some aspects of the disease. This is mainly derived by using in vitro and ex vivo analysis of the orbital tissues. Here, we have summarized the features of GO pathogenesis involving target autoantigens and their signaling pathways. [ABSTRACT FROM AUTHOR]

Published

2021

32. Orbital Signaling in Graves’ Orbitopathy

Author

Mohd Shazli Draman, Lei Zhang, Colin Dayan, and Marian Ludgate

Subjects

thyroid eye disease, adipogenesis, hyaluronan, TSAB, TSHR, IGF1R, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Graves’ orbitopathy (GO) is a complex and poorly understood disease in which extensive remodeling of orbital tissue is dominated by adipogenesis and hyaluronan production. The resulting proptosis is disfiguring and underpins the majority of GO signs and symptoms. While there is strong evidence for the thyrotropin receptor (TSHR) being a thyroid/orbit shared autoantigen, the insulin-like growth factor 1 receptor (IGF1R) is also likely to play a key role in the disease. The pathogenesis of GO has been investigated extensively in the last decade with further understanding of some aspects of the disease. This is mainly derived by using in vitro and ex vivo analysis of the orbital tissues. Here, we have summarized the features of GO pathogenesis involving target autoantigens and their signaling pathways.

Published

2021

33. The full-length TSH receptor is stabilized by TSH ligand.

Author

Mezei, Mihaly, Latif, Rauf, and Davies, Terry F.

Subjects

*THYROTROPIN receptors, *TRANSMEMBRANE domains, *THYROID hormone receptors, *THYROTROPIN, *MEMBRANE lipids, *LIGAND binding (Biochemistry)

Abstract

The receptor for thyroid stimulating hormone (TSHR), a GPCR, is the primary antigen in autoimmune hyperthyroidism (Graves' disease) caused by stimulating TSHR antibodies. While we have previously published a full length model of the TSHR, including its leucine rich domain (LRD), linker region (LR) and transmembrane domain (TMD), to date, only a partial LRD (aa 21–261) stabilized with TSHR autoantibodies has been crystallized. Recently, however, cryo-EM structures of the full-length TSHR have been published but they include only an incomplete LR. We have now utilized the cryo-EM models, added disulfide bonds to the LR and performed longer (3000 ns) molecular dynamic (MD) simulations to update our previous model of the entire full-length TSHR, with and without the presence of TSH ligand. As in our earlier work, the new model was embedded in a lipid membrane and was solvated with water and counterions. We found that the 3000 ns Molecular Dynamic simulations showed that the structure of the LRD and TMD were remarkably constant while the LR, known more commonly as the "hinge region", again showed significant flexibility, forming several transient secondary structural elements. Analysis of the new simulations permitted a detailed examination of the effect of TSH binding on the structure of the TSHR. We found a structure-stabilizing effect of TSH, including increased stability of the LR, which was clearly demonstrated by analyzing several intrinsic receptor properties including hydrogen bonding, fluctuation of the LRD orientation, and radius of gyration. In conclusion, we were able to quantify the flexibility of the TSHR and show its increased stability after TSH binding. These data indicated the important role of ligands in directing the signaling structure of a receptor. [Display omitted] • A model of the TSH receptor is presented with a leucine rich ectodomain, transmembrane domain and complete hinge region. • The model shows an intrinsically variable hinge region able to accommodate the binding of ligands and autoantibodies. • Binding of TSH ligand stabilizes the TSHR-TSH complex indicating the importance of this interaction. [ABSTRACT FROM AUTHOR]

Published

2024

34. Eighteen-years follow-up of congenital hypothyroidism by TSHR gene p.Arg109Gln and p.Arg450His variants

Author

Watanabe, Daisuke, Yagasaki, Hideaki, Mitsui, Yumiko, and Inukai, Takeshi

Subjects

nonclassical TSH resistance, p.Arg109Gln, congenital hypothyroidism, TSHR, genotype-phenotype

Abstract

Congenital hypothyroidism (CH) is a common heterogeneous endocrine disorder. The thyroid-stimulating hormone receptor gene (TSHR) is one of the major candidate genes associated with CH. Studies have investigated the possible correlations between the specific clinical features and the presence of TSHR variants. However, only a few reports have focused on the long-term follow-up of patients with CH. Here we present a case of CH-associated TSHR p.Arg109Gln and p.Arg450His rare compound heterozygous variants, with a follow-up performed until adolescence. The patient had high serum TSH levels during newborn screening. Oral administration of levothyroxine (l-T4) was initiated at 1 month of age. The ultrasonogram revealed normal thyroid morphology and blood flow. Reduced uptake of I-123 and negative perchlorate test was observed. A small amount of l-T4 remained needed although l-T4 could be steadily reduced by puberty. The patient was diagnosed with orthotopic, nongoitrous, and permanent CH. He had no nonclassical TSH resistance. Patients with the TSHR p.Arg109Gln compound heterozygous variant exhibit permanent CH with high TSH levels and normal or slightly lower fT4 levels. In the future, genotype identification could help predict the long-term prognosis and reduce the requirement for detailed examinations. More case studies are needed to determine the relationship between genetic variants and clinical features in CH., This is an Open Access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. To view the details of this license, please visit (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Published

2023

35. Implications of an Improved Model of the TSH Receptor Transmembrane Domain (TSHR-TMD-TRIO).

Author

Mezei, Mihaly, Latif, Rauf, Das, Bhaskar, and Davies, Terry F

Subjects

SMALL molecules, HORMONE receptors, THYROTROPIN receptors, MOLECULAR dynamics, THYROTROPIN

Published

2021

36. Relationship between TSHR, BRAF and PIK3CA gene copy number variations and thyroid nodules.

Author

Shi, Xiaoli, Qu, Mengying, Jin, Xing, Liu, Lixiang, Meng, Fangang, and Shen, Hongmei

Abstract

Purpose: This study aims to investigate the relationship between the TSHR, BRAF, and PIK3CA gene copy number variations (CNVs) and thyroid nodules by analyzing gene CNVs, and to explore the interaction between iodine status and the above genes CNVs in the occurrence of thyroid nodules. Methods: Three hundred and ninety-five subjects were selected from 3 regions with different iodine status in Shanxi Province of China, including 192 patients with thyroid nodules and 203 healthy controls. The basic information about subjects had been obtained through a questionnaire. B ultrasound was utilized to check thyroid nodules. Blood and urine samples were harvested to detect the thyroid function and urinary iodine concentration. Real-time quantitative polymerase chains reaction (RT-PCR) served to detect CNVs in DNA from human blood. Results: There was an association between TSHR gene CNV and thyroid nodules (χ2 = 8.403, P = 0.004). The prevalence of BRAF and PIK3CA gene CNVs was not statistically significant between the case group and the control group. Differences in the TSHR gene CNV rates for cases of the 3 areas were statistically significant (χ2 = 10.072, P = 0.007). No statistical difference in the prevalence rates of the 3 genes CNVs between diverse characteristics of thyroid nodules was observed. UIC > 300 μg/L (OR = 1.74, 95% CI: 1.02–2.96, P = 0.041) and TSHR gene CNV (OR = 3.53, 95% CI: 1.40–8.92, P = 0.008) were risk factors for thyroid nodules. There was no significant interaction between the UIC and the examined genes CNVs. Conclusions: TSHR gene CNV and high urinary iodine levels can increase the risk of thyroid nodules. But the interactions between the 3 above genes CNVs and iodine nutrition were not found in the occurrence of thyroid nodules. [ABSTRACT FROM AUTHOR]

Published

2021

37. A Promising Mouse Model of Graves' Orbitopathy Induced by Adenovirus Expressing Thyrotropin Receptor A Subunit.

Author

Zhang, Meng, Ding, Xi, Wu, Li-Ping, He, Ming-Qian, Chen, Zi-Yi, Shi, Bing-Yin, and Wang, Yue

Subjects

*THYROTROPIN receptors, *ADENOVIRUS diseases, *SUPPRESSOR cells, *T cell receptors, *TH1 cells, *T cells

Abstract

Background: Graves' orbitopathy (GO) is the most common and serious manifestation of Graves' disease (GD). It is characterized by orbital inflammation and tissue remodeling. Although several GO models have been reported, most lack a full assessment or mechanistic evaluation. Here, we established a promising mouse model mimicking many aspects of human GO with a frequency of 70% and characterized the key role of T cells in the progression of GO. Methods: An adenovirus expressing the human thyrotropin (TSH) receptor A subunit (Ad-TSHRA) was injected in the muscles of female BALB/C mice nine times to induce GO. At predetermined time points, histological examinations of retrobulbar tissues and thyroid glands were performed to dynamically monitor changes; serum autoantibodies and total thyroxine levels were examined to evaluate thyroid function. Flow cytometry of CD4+ T cell subgroups and RNA sequencing (RNA-Seq) of splenocytes were also performed to explore the underlying mechanism. Results: After nine injections, 7 of 10 mice challenged with Ad-TSHRA developed the orbital changes associated with GO. Seven mice manifested retrobulbar fibrosis, and four mice showed adipogenesis. Exophthalmia, conjunctival redness, and orbital lymphocyte infiltration were also observed in a subset of mice. The orbitopathy was first detected after seven injections and followed the hyperplastic change observed in thyroids after four injections. Flow cytometry revealed increased proportions of Th1 cells and decreased proportions of Th2 cells and regulatory T (Treg) cells in the splenocytes of GO mice. This change in CD4+ T cell subgroups was confirmed by orbital immunohistochemical staining. Genes involved in T cell receptor signaling, proliferation, adhesion, inflammation, and cytotoxicity were upregulated in GO mice according to the RNA-Seq; a trend of upregulation of these GO-specific genes was observed in mice with hyperthyroidism without orbitopathy after four injections. Conclusions: A GO mouse model was successfully established by administering nine injections of Ad-TSHRA. The model was achieved with a frequency of 70% and revealed the importance of T cell immunity. A potential time window from Graves' hyperthyroidism to GO was presented for the first time. Therefore, this model could be used to study the pathogenesis and novel treatments for GO. [ABSTRACT FROM AUTHOR]

Published

2021

38. Adipose‐specific inactivation of thyroid stimulating hormone receptors in mice modifies body weight, temperature and gene expression in adipocytes

Author

Veroniqa Lundbäck, Agné Kulyté, Ingrid Dahlman, and Claude Marcus

Subjects

adipogenesis, adipose‐specific knockout, BAT, body weight, thermogenesis, TSHR, Physiology, QP1-981

Abstract

Abstract Background In obesity, the expression level of thyroid stimulating hormone receptor in adipose tissue is reduced and the levels of thyroid stimulating hormone (TSH) are often elevated within the normal range. Purpose/Aim To investigate the role of TSHR in brown and white adipose tissue (AT) using TSHR knockout (KO) mice and the physiological phenotypes affected by the TSHR knockout. Methods AT‐specific TSHR KO male mice and wild type (WT) controls were given a high‐fat diet (HFD) or a control diet (CD). Body weights and food consumption were recorded for 20 weeks and body temperatures for the first 3 weeks. At termination, white and brown adipocytes were isolated. Gene expressios was investigated using real‐time PCR. In a subgroup of female KO mice, glucose tolerance was investigated. Results TSHR were partially knocked out in KO mice, which gained more weight than WT mice when fed both a CD (p = .03) and HFD (p = .003). Body temperatures were lower in KO mice on CD (p

Published

2020

39. TSH Receptor Homodimerization in Regulation of cAMP Production in Human Thyrocytes in vitro

Author

Alisa Boutin, Christine C. Krieger, Bernice Marcus-Samuels, Joanna Klubo-Gwiezdzinska, Susanne Neumann, and Marvin C. Gershengorn

Subjects

inverted U-shaped dose response curve, cAMP production, phosphoinositide signaling, thyrotropin receptor, TSHR, receptor homodimerization, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Thyrotropin hormone (TSH) was reported to exhibit biphasic regulation of cAMP production in human thyroid slices; specifically, upregulation at low TSH doses transitioning to inhibition at high doses. We observed this phenomenon in HEK293 cells overexpressing TSH receptors (TSHRs) but in only 25% of human thyrocytes (hThyros) in vitro. Because TSHR expression in hThyros in vitro was low, we tested the hypothesis that high, in situ levels of TSHRs were needed for biphasic cAMP regulation. We increased expression of TSHRs by infecting hThyros with adenoviruses expressing human TSHR (AdhTSHR), measured TSH-stimulated cAMP production and TSHR homodimerization. TSHR mRNA levels in hThyros in vitro were 100-fold lower than in human thyroid tissue. AdhTSHR infection increased TSHR mRNA expression to levels found in thyroid tissue and flow cytometry showed that cell-surface TSHRs increased more than 15-fold. Most uninfected hThyro preparations exhibited monotonic cAMP production. In contrast, most hThyro preparations infected with AdhTSHR expressing TSHR at in vivo levels exhibited biphasic TSH dose responses. Treatment of AdhTSHR-infected hThyros with pertussis toxin resulted in monotonic dose response curves demonstrating that lower levels of cAMP production at high TSH doses were mediated by Gi/Go proteins. Proximity ligation assays confirmed that AdhTSHR infection markedly increased the number of TSHR homodimers. We conclude that in situ levels of TSHRs as homodimers are needed for hThyros to exhibit biphasic TSH regulation of cAMP production.

Published

2020

40. Gut microbiota in experimental murine model of Graves’ orbitopathy established in different environments may modulate clinical presentation of disease

Author

Giulia Masetti, Sajad Moshkelgosha, Hedda-Luise Köhling, Danila Covelli, Jasvinder Paul Banga, Utta Berchner-Pfannschmidt, Mareike Horstmann, Salvador Diaz-Cano, Gina-Eva Goertz, Sue Plummer, Anja Eckstein, Marian Ludgate, Filippo Biscarini, Julian Roberto Marchesi, and the INDIGO consortium

Subjects

Graves’ orbitopathy, Graves’ disease, Induced animal model, Gut microbiota, TSHR, Metataxonomics, Microbial ecology, QR100-130

Abstract

Abstract Background Variation in induced models of autoimmunity has been attributed to the housing environment and its effect on the gut microbiota. In Graves’ disease (GD), autoantibodies to the thyrotropin receptor (TSHR) cause autoimmune hyperthyroidism. Many GD patients develop Graves’ orbitopathy or ophthalmopathy (GO) characterized by orbital tissue remodeling including adipogenesis. Murine models of GD/GO would help delineate pathogenetic mechanisms, and although several have been reported, most lack reproducibility. A model comprising immunization of female BALBc mice with a TSHR expression plasmid using in vivo electroporation was reproduced in two independent laboratories. Similar orbital disease was induced in both centers, but differences were apparent (e.g., hyperthyroidism in Center 1 but not Center 2). We hypothesized a role for the gut microbiota influencing the outcome and reproducibility of induced GO. Results We combined metataxonomics (16S rRNA gene sequencing) and traditional microbial culture of the intestinal contents from the GO murine model, to analyze the gut microbiota in the two centers. We observed significant differences in alpha and beta diversity and in the taxonomic profiles, e.g., operational taxonomic units (OTUs) from the genus Lactobacillus were more abundant in Center 2, and Bacteroides and Bifidobacterium counts were more abundant in Center 1 where we also observed a negative correlation between the OTUs of the genus Intestinimonas and TSHR autoantibodies. Traditional microbiology largely confirmed the metataxonomics data and indicated significantly higher yeast counts in Center 1 TSHR-immunized mice. We also compared the gut microbiota between immunization groups within Center 2, comprising the TSHR- or βgal control-immunized mice and naïve untreated mice. We observed a shift of the TSHR-immunized mice bacterial communities described by the beta diversity weighted Unifrac. Furthermore, we observed a significant positive correlation between the presence of Firmicutes and orbital-adipogenesis specifically in TSHR-immunized mice. Conclusions The significant differences observed in microbiota composition from BALBc mice undergoing the same immunization protocol in comparable specific-pathogen-free (SPF) units in different centers support a role for the gut microbiota in modulating the induced response. The gut microbiota might also contribute to the heterogeneity of induced response since we report potential disease-associated microbial taxonomies and correlation with ocular disease.

Published

2018

41. Effects of the domestic thyroid stimulating hormone receptor (TSHR) variant on the hypothalamic-pituitary-thyroid axis and behavior in chicken.

Author

Fallahshahroudi, Amir, Johnsson, Martin, Sorato, Enrico, Ubhayasekera, S. J. Kumari A., Bergquist, Jonas, Altimiras, Jordi, and Jensen, Per

Subjects

*POULTRY, *PITUITARY gland, *GENETICS, *ANIMAL experimentation, *CELL receptors, *GENE expression, *PHYSIOLOGICAL adaptation, *HYPOTHALAMUS, *THYROID gland, *SEXUAL health, *REPRODUCTIVE health

Abstract

Domestic chickens are less fearful, have a faster sexual development, grow bigger, and lay more eggs than their primary ancestor, the red junglefowl. Several candidate genetic variants selected during domestication have been identified, but only a few studies have directly linked them with distinct phenotypic traits. Notably, a variant of the thyroid stimulating hormone receptor (TSHR) gene has been under strong positive selection over the past millennium, but it's function and mechanisms of action are still largely unresolved. We therefore assessed the abundance of the domestic TSHR variant and possible genomic selection signatures in an extensive data set comprising multiple commercial and village chicken populations as well as wild-living extant members of the genus Gallus. Furthermore, by mean of extensive backcrossing we introgressed the wild-type TSHR variant from red junglefowl into domestic White Leghorn chickens and investigated gene expression, hormone levels, cold adaptation, and behavior in chickens possessing either the wild-type or domestic TSHR variant. While the domestic TSHR was the most common variant in all studied domestic populations and in one of two red junglefowl population, it was not detected in the other Gallus species. Functionally, the individuals with the domestic TSHR variant had a lower expression of the TSHR in the hypothalamus and marginally higher in the thyroid gland than wild-type TSHR individuals. Expression of TSHB and DIO2, two regulators of sexual maturity and reproduction in birds, was higher in the pituitary gland of the domestic-variant chickens. Furthermore, the domestic variant was associated with higher activity in the open field test. Our findings confirm that the spread of the domestic TSHR variant is limited to domesticated chickens, and to a lesser extent, their wild counterpart, the red junglefowl. Furthermore, we showed that effects of genetic variability in TSHR mirror key differences in gene expression and behavior previously described between the red junglefowl and domestic chicken. [ABSTRACT FROM AUTHOR]

Published

2021

42. Reevaluation of the Effect of Iodine on Thyroid Cell Survival and Function Using PCCL3 and Nthy-ori 3-1 Cells.

Author

Kurashige, Tomomi, Shimamura, Mika, and Nagayama, Yuji

Subjects

IODINE, THYROID gland physiology

Abstract

The appropriate amount of iodine is critical for normal function of thyroid cells synthesizing thyroid hormones. Although normal thyroid cell lines such as rat PCCL3 and FRTL5 and human Nthy-ori 3-1 have been widely used for in vitro studies on physiological and pathophysiological effects of iodine on thyroid cells, we have recently pointed out the critical differences between FRTL5/PCCL3 cells and Nthy-ori 3-1 cells. Therefore, we here directly compared some of the cellular characteristics—iodine uptake, differentiated status, iodine-induced cytotoxicity, and iodine-regulation of autophagy—between PCCL3 and Nthy-ori 3-1 cells. PCCL3 cells express messenger RNAs for thyrotropin receptor and sodium/iodine symporter and incorporate iodine in a thyrotropin-dependent manner, whereas Nthy-ori 3-1 cells do not either. Nevertheless, both cells were comparably resistant to iodine cytotoxicity: Only far excess iodine (5 × 10–2 M) killed 20% to 40% cells in 24 hours with perchlorate exhibiting no effect, suggesting this cytotoxic effect is due to extracellular iodine. In contrast, a wide range of iodine (5 × 10–9 to 5 × 10–2 M) induced autophagy in PCCL3 cells, which was abolished by perchlorate, indicating intracellular iodine-induction of autophagy, but this effect was not observed in Nthy-ori 3-1 cells. In conclusion, it is critical to discriminate the effect of iodine incorporated into cells from that of extracellular iodine on thyroid cells. Iodine-uptake competent thyroid cells such as PCCL3 and FRTL5 cells, not Nthy-ori 3-1 cells, should be used for studies on iodine effect on thyroid cells. [ABSTRACT FROM AUTHOR]

Published

2020

43. THYROID DYSFUNCTION IN CHILDREN AND ADOLESCENTS WITH TYPE 1 DIABETES MELLITUS IN BASRAH, IRAQ.

Author

Kareem, Muneer Mutar, Maatook, Majid Abdulwahab, and Atwan, Dhaighum Imad

Subjects

THYROID diseases, TEENAGERS, TYPE 1 diabetes, DISEASE prevalence, CONTROL groups

Abstract

Diabetes mellitus and thyroid dysfunction are two major, worldwide spreading-endocrinopathies and each of them could affect the other. The recognition of the relationship between diabetes mellitus and thyroid dysfunction has importance in guiding clinicians of good management of both of them. The aim of this study was to detect the prevalence of thyroid dysfunction in patients with type 1 diabetes mellitus. Study design; cross sectional study. The study was conducted at Al-Fiha teaching hospital/ FDEMC center, Basrah, Iraq. A total of one hundred fifty three subjects aged (1-18 years) were involved in the study. Patients with pre-diagnosed type 1 diabetes mellitus were one hundred two subjects and fifty one apparently healthy subjects with matched age and sex as control group. All subjects underwent the measurements of thyroid function tests (TSH, FT3 and FT4) as well as thyroid autoantibodies (TPO and Tg antibodies) by electrochemilumi- nescencetechnology (ECL). TSHR antibodies were measured by using ELISA technique. The categorical variables were studied using chi squared tests while continuous variables examined with comparative t-tests. The study revealed a higher prevalence of thyroid dysfunction among T1DM patients; 16 (15.7%) compared to 4 (7.9%) in the control group, but this difference is statistically non-significant (P = 0.484). The prevalence of hypothyroidism in the diabetic and control groups were 14 (13.7%) and 3 (5.9%), respectively. The TSH level was significantly high in Tg positive - diabetic patients (P = 0.018), while patients with positive TSHR antibodies showed decreased levels of TSH (P =0.005). The level of FT3 was significantly low in the diabetic group compared to the control group (P = 0.017). TPO and Tg antibodies prevalence were significantly high in the diabetic group (P = 0.004, 0.021, respectively). Thyroid dysfunction (mainly subclinical hypothyroidism) were more prevalent in diabetic patients with no significant difference between the diabetics and control groups. [ABSTRACT FROM AUTHOR]

Published

2020

44. Newborn screening and single nucleotide variation profiling of TSHR, TPO, TG and DUOX2 candidate genes for congenital hypothyroidism.

Author

Kollati, Yedukondalu, Akella, Radha Rama Devi, Naushad, Shaik Mohammad, Borkar, Divya, Thalla, Maunika, Nagalingam, Swapna, Lingappa, Lokesh, Patel, Rajesh K., Reddy, G. Bhanuprakash, and Dirisala, Vijaya R.

Abstract

High prevalence of congenital hypothyroidism (CH) among Indian newborns prompted us to establish population-specific reference ranges of TSH and to explore the contribution of the common genetic variants in TSHR, TPO, TG and DUOX2 genes towards CH. A total of 1144 newborns (593 males and 551 females) were screened for CH. SNV profiling (n = 22) spanning three candidate genes, i.e. TSHR, TPO and TG was carried out in confirmed CH cases (n = 45). In screen negative cases (n = 700), ten TSHR variants were explored to establish association with CH. No mutation found in DUOX2. The 2.5th to 97.5th percentiles of TSH in these newborns were 0.5 to 12.2 mU/L. In newborns with optimal birth weight, the cut-off was 10 mU/L. Lower or higher birth weight resulted in slightly higher TSH. Two TSHR variants, i.e. rs7144481 and rs17630128 were associated with agenesis, hypoplasia and goiter. The rs2268477 was associated with agenesis and hypoplasia. The rs1991517, rs2075176 and rs2241119 were associated with agenesis only. The rs7144481, rs17630128, rs1991517 and rs2268477 were associated with 2.17, 4.62, 2.91 and 2.29-fold increased risk for CH, respectively. Among the TPO variants, rs867983 and rs2175977 were associated with agenesis and goiter, respectively. Among the TG variants, rs2076740 showed association with agenesis and goiter. Two rare variants i.e. TPO g.IVS14-19 G>C and TG c.1262 C>T were observed in CH cases. No genetic variant identified in the two exons of DUOX2. To conclude, the current study established Indian population-specific normative values for TSH and demonstrates specific genotype–phenotype correlations among three candidate genes. [ABSTRACT FROM AUTHOR]

Published

2020

45. Evaluation and Insilico Analysis of Genes Involved in Hypothyroidism.

Author

Masood, Ammara, Mubeen, Hira, and Iqbal, Nadia

Subjects

*HYPOTHYROIDISM, *PERIPHERAL nervous system, *THYROID gland, *ENDOCRINE glands, *NUCLEOTIDE sequence

Abstract

To evaluate the expression of genes that involved in hypothyroidism by multiple alignment of nucleotide sequences of genes study the functional unit of genes that involve in production of thyroid hormones. The thyroid gland is part of endocrine gland and regulates much vital body function (breathing, heart rate, body weight, body temperature also involve in development, growth, protein production and it also control the central and peripheral nervous system, muscle strength and menstrual cycle). Hypothyroidism is a condition in which thyroid gland does not produce enough thyroid hormone. To find the genetics information than by using bioinformatics tools several genes that were involved in hypothyroidism were identified but six genes TSHR, TPO, THRB, TG, IYD, DUOX2 and their motifs were studied in detail to understand the basic domains involved in this disease [ABSTRACT FROM AUTHOR]

Published

2020

46. Adipose‐specific inactivation of thyroid stimulating hormone receptors in mice modifies body weight, temperature and gene expression in adipocytes.

Author

Lundbäck, Veroniqa, Kulyté, Agné, Dahlman, Ingrid, and Marcus, Claude

Subjects

THYROID hormone receptors, THYROTROPIN, BODY weight, WHITE adipose tissue, BROWN adipose tissue

Abstract

Background: In obesity, the expression level of thyroid stimulating hormone receptor in adipose tissue is reduced and the levels of thyroid stimulating hormone (TSH) are often elevated within the normal range. Purpose/Aim: To investigate the role of TSHR in brown and white adipose tissue (AT) using TSHR knockout (KO) mice and the physiological phenotypes affected by the TSHR knockout. Methods: AT‐specific TSHR KO male mice and wild type (WT) controls were given a high‐fat diet (HFD) or a control diet (CD). Body weights and food consumption were recorded for 20 weeks and body temperatures for the first 3 weeks. At termination, white and brown adipocytes were isolated. Gene expressios was investigated using real‐time PCR. In a subgroup of female KO mice, glucose tolerance was investigated. Results: TSHR were partially knocked out in KO mice, which gained more weight than WT mice when fed both a CD (p =.03) and HFD (p =.003). Body temperatures were lower in KO mice on CD (p <.001) and on HFD (p <.001) than WT controls. This was in agreement with reduced gene expression of UCP1 in brown adipocytes in the KO mice. Glucose tolerance was significantly impaired in KO mice on CD mice before termination (p <.01). Expression of adipogenic and lipolytic genes were reduced in KO mice, which was exacerbated by HFD. The mRNA levels of adipokines including ADIPOQ and LEP were altered in white adipocytes of KO mice. Conclusions: TSHR KO led to dysfunction of both white and brown AT and predisposition to excess body weight gain in mice. Our data show that TSHR in AT regulates glucose tolerance, lipid metabolism, adipokine profile, and thermogenesis. [ABSTRACT FROM AUTHOR]

Published

2020

47. Molecular cloning and variant analysis of the TSHR gene in goose (Anser cygnoides).

Author

Wang, C., Liu, Y., Li, G., Gong, S., Yang, Y., Wang, H., and He, D.

Subjects

*MOLECULAR cloning, *GEESE, *AMINO acid sequence, *SINGLE nucleotide polymorphisms, *HORMONE receptors, *METABOLIC regulation

Abstract

1. The thyroid-stimulating hormone receptor (TSHR) is a glycoprotein hormone receptor which has a pivotal role in metabolic regulation and photoperiod control during reproduction in birds and mammals. However, the molecular characterisation of TSHR in goose is unknown. 2. The goose TSHR cDNA (TSHR-1) is 2334 bp in length and encodes a protein of 763 amino acids. This trial identified another three novel splice variants of goose TSHR, TSHR-2 (lacking the exon 3 in TSHR-1 transcript), TSHR-3 (lacking the exon 6 in the TSHR-1 transcript) and TSHR-4 (lacking 12 bp of exon 8 and the entire exon 9 in the TSHR-1 transcript). 3. Bioinformatics analysis indicated that all the deduced TSHR amino acid sequences contained seven putative transmembrane domains, and the TSHR-3 protein lacked one potential N-linked glycosylation site (N-E-S) compared to the other three deduced proteins. 4. A phylogenetic tree based on amino acid sequences showed that the goose TSHR protein was closely related to those of other avian species, especially duck and chickens. 5. One microsatellite and three single nucleotide polymorphisms (SNPs) were identified. For the c1109A/G locus, AA and GA genotypes were found in the Zhedong-White goose population, GG and GA genotypes were detected in the Landes goose population, but the AA genotype was only detected in the other four goose populations. 6. All the information derived from this study can facilitate further studies on the functions of the goose TSHR gene. [ABSTRACT FROM AUTHOR]

Published

2020

48. Genome-wide association study identifies new loci for albuminuria in the Japanese population.

Author

Okuda, Hiroshi, Okamoto, Koji, Abe, Michiaki, Ishizawa, Kota, Makino, Satoshi, Tanabe, Osamu, Sugawara, Junichi, Hozawa, Atsushi, Tanno, Kozo, Sasaki, Makoto, Tamiya, Gen, Yamamoto, Masayuki, Ito, Sadayoshi, and Ishii, Tadashi

Subjects

*ASIANS, *SINGLE nucleotide polymorphisms, *DISEASE risk factors, *CHRONIC kidney failure, *NUCLEOTIDE sequencing

Abstract

Background: Urinary albumin excretion (UAE) is a risk factor for cardiovascular diseases, metabolic syndrome, chronic kidney disease, etc. Only a few genome-wide association studies (GWAS) for UAE have been conducted in the European population, but not in the Asian population. Here we conducted GWAS and identified several candidate genes harboring single nucleotide polymorphisms (SNPs) responsible for UAE in the Japanese population. Methods: We conducted GWAS for UAE in 7805 individuals of Asian ancestry from health-survey data collected by Tohoku Medical Megabank Organization (ToMMo) and Iwate Tohoku Medical Megabank Organization (IMM). The SNP genotype data were obtained with a SNP microarray. After imputation using a haplotype panel consisting of 2000 genome sequencing, 4,962,728 SNP markers were used for the GWAS. Results: Eighteen SNPs at 14 loci (GRM7, EXOC1/NMU, LPA, STEAP1B/RAPGEF5, SEMA3D, PRKAG2, TRIQK, SERTM1, TPT1-AS1, OR5AU1, TSHR, FMN1/RYR3, COPRS, and BRD1) were associated with UAE in the Japanese individuals. A locus with particularly strong associations was observed on TSHR, chromosome 14 [rs116622332 (p = 3.99 × 10−10)]. Conclusion: In this study, we successfully identified UAE-associated variant loci in the Japanese population. Further study is required to confirm this association. [ABSTRACT FROM AUTHOR]

Published

2020

49. No detection of TSH or TSHR in oral lichen planus lesions in patients with or without hypothyroidism.

Author

Vehviläinen, Mari, Salem, Abdelhakim, Asghar, Muhammad Yasir, Salo, Tuula, and Siponen, Maria

Subjects

*ORAL lichen planus, *HYPOTHYROIDISM, *HORMONE receptors, *ORAL mucosa, *GENE expression, *EPITHELIAL cells, *THYROTROPIN, *CELL receptors, *CASE-control method, *POLYMERASE chain reaction, *BLOOD

Abstract

Objective: An association between hypothyroidism (HT) and oral lichen planus (OLP) has been reported. However, the mechanisms that could explain this association remain unresolved. This study aimed to evaluate the expression of thyroid-stimulating hormone (TSH) and thyroid-stimulating hormone receptor (TSHR) in healthy oral mucosa and in OLP lesions of individuals with and without HT.Material and methods: Immunohistochemical expression of TSH and TSHR was studied in oral mucosal biopsies obtained from 14 OLP patients with HT, 14 OLP patients without HT and 10 healthy controls without oral mucosal lesions. Gene expression of TSHR was investigated by using three different PCR techniques in oral mucosal samples from 7 OLP patients with HT, 3 OLP patients without HT, 9 healthy controls and in cultured human oral epithelial cells. Gene expression of TSH was examined by employing 2 PCR techniques in oral mucosal samples from 2 OLP patients with HT, 2 OLP patients without HT and 4 healthy controls.Results: TSH and TSHR stainings were negative in the studied oral mucosal specimens. Gene quantification assays demonstrated negative gene expression of TSH and TSHR in clinical and in vitro samples.Conclusions: These results suggest that TSH and TSHR may not be commonly involved in the pathogenetic mechanism that could explain the association between OLP and hypothyroidism. [ABSTRACT FROM AUTHOR]

Published

2020

50. Thyrotropin receptor signaling deficiency impairs spatial learning and memory in mice.

Author

Sisi Luan, Wenkai Bi, Shulong Shi, Li Peng, Zhanbin Li, Jie Jiang, Ling Gao, Yifeng Du, Xu Hou, Zhao He, and Jiajun Zhao

Subjects

*THYROTROPIN receptors, *SPATIAL memory, *COGNITION disorders, *DENDRITIC spines, *KNOCKOUT mice, *LONG-term synaptic depression

Abstract

Subclinical hyperthyroidism, a condition characterized by decreased thyroid-stimulating hormone (TSH) and normal concentration of thyroid hormone, is associated with an elevated risk for cognitive impairment. TSH is the major endogenous ligand of the TSH receptor (TSHR) and its role is dependent on signal transduction of TSHR. It has not, however, been established whether TSHR signaling is involved in the regulation of cognition. Here, we utilized Tshr knockout mice and found that Tshr deletion led to significantly compromised performance in learning and memory tes ts. Reduced dendritic spine density and excitatory synaptic density as well as altered synaptic structure in CA1 subfield of the hippocampus were also noted. Furthermore, the sy napse-related gene expression was altered in the hippocampus of Tshr-/- mice. These findings suggest that TSHR signaling deficiency impairs spatial learning and memory, w hich discloses a novel role of TSHR signaling in brain function. [ABSTRACT FROM AUTHOR]

Published

2020