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Luca Persani Department of Endocrine and Metabolic Diseases, IRCCS Istituto Auxologico Italiano, Milano, Italy
Department of Medical Biotechnology and Translational Medicine, University of Milan, Milano, Italy

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Patrice Rodien Service d’Endocrinologie-Diabétologie-Nutrition, Centre de référence des maladies rares de la Thyroïde et des récepteurs hormonaux, CHU d’Angers, Angers, France.

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Carla Moran Institute of Metabolic Science, University of Cambridge, Cambridge, UK
Endocrine Section, Beacon Hospital, Dublin, Ireland.
School of Medicine, University College Dublin, Ireland
Endocrinology Department, St Vincent’s University Hospital, Dublin, Ireland

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W Edward Visser Department of Internal Medicine and Rotterdam Thyroid Center, Erasmus University Medical Center, Rotterdam, The Netherlands

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Stefan Groeneweg Department of Internal Medicine and Rotterdam Thyroid Center, Erasmus University Medical Center, Rotterdam, The Netherlands

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Robin Peeters Department of Internal Medicine and Rotterdam Thyroid Center, Erasmus University Medical Center, Rotterdam, The Netherlands

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Samuel Refetoff Departments of Medicine and Paediatrics and Committee on Genetics, The University of Chicago, Chicago, Illinois, USA

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Mark Gurnell Institute of Metabolic Science, University of Cambridge, Cambridge, UK

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Paolo Beck-Peccoz Department of Medical Biotechnology and Translational Medicine, University of Milan, Milano, Italy

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Krishna Chatterjee Institute of Metabolic Science, University of Cambridge, Cambridge, UK

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Impaired sensitivity to thyroid hormones encompasses disorders with defective transport of hormones into cells, reduced hormone metabolism, and resistance to hormone action. Mediated by heritable single-gene defects, these rare conditions exhibit different patterns of discordant thyroid function associated with multisystem phenotypes. In this context, challenges include ruling out other causes of biochemical discordance, making a diagnosis using clinical features together with the identification of pathogenic variants in causal genes, and managing these rare disorders with a limited evidence base. For each condition, the present guidelines aim to inform clinical practice by summarizing key clinical features and useful investigations, criteria for molecular genetic diagnosis, and pathways for management and therapy. Specific, key recommendations were developed by combining the best research evidence available with the knowledge and clinical experience of panel members, to achieve a consensus.

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Henry Völzke Institute for Community Medicine, University Medicine Greifswald, Greifswald, Germany

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Iris Erlund Department of Public Health Solutions, National Institute for Health and Welfare (THL), Helsinki, Finland

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Alicja Hubalewska-Dydejczyk Department of Endocrinology, Jagiellonian University Medical College, Krakow, Poland

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Till Ittermann Institute for Community Medicine, University Medicine Greifswald, Greifswald, Germany

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Robin P. Peeters Department of Internal Medicine, Rotterdam Thyroid Centre, Erasmus Medical Centre, Rotterdam, The Netherlands

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Margaret Rayman University of Surrey, Surrey, United Kingdom

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Monika Buchberger Department of Public Health and Health Technology Assessment, UMIT, University for Health Science, Medical Informatics and Technology, Hall, Austria

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Uwe Siebert Department of Public Health and Health Technology Assessment, UMIT, University for Health Science, Medical Informatics and Technology, Hall, Austria

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Betina H. Thuesen Research Centre for Prevention and Health, Glostrup, Denmark

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Michael B. Zimmermann Swiss Federal Institute of Technology, Zürich Department of Health Sciences and Technology, Zürich, Switzerland

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Stefan Grünert Biolution GmbH, Vienna, Austria

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John H. Lazarus Institute of Molecular Medicine, Cardiff University, Cardiff, United Kingdom

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Background: Iodine deficiency disorders (IDD) represent a global health threat to individuals and societies. IDD prevention programmes have been introduced in many parts of the world. However, challenges remain, particularly in Europe due to fragmentation and diversity of approaches that are not harmonized. Objectives: This review is dedicated to the public-health impact of IDD prevention programmes. It sums up experiences collected by the EUthyroid consortium so far and provides information on stakeholders that should be involved in actions directed to improve the impact of IDD prevention. Methods: A joint European database for combining registry-based outcome and monitoring data as well as tools for harmonizing study methods were established. Methods for analyzing thyroglobulin from a dried blood spot are available for assessing the iodine status in the general population and at-risk groups. Mother-child cohorts are used for in-depth analysis of the potential impact of mild-to-moderate iodine deficiency on the neurocognitive development of the offspring. A decision-analytic model has been developed to evaluate the long-term effectiveness and cost effectiveness of IDD prevention programmes. Results: EUthyroid has produced tools and infrastructure to improve the quality of IDD monitoring and follows a dissemination strategy targeting policymakers and the general public. There are tight connections to major stakeholders in the field of IDD monitoring and prevention. Conclusions: EUthyroid has taken steps towards achieving a euthyroid Europe. Our challenge is to inspire a greater sense of urgency in both policymakers and the wider public to address this remediable deficit caused by IDD.

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Zhongli Chen Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands

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Robin P Peeters Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands

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Wesley Flach Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands

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Linda J de Rooij Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands

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Sena Yildiz Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands

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Alexander Teumer Institute for Community Medicine, University Medicine Greifswald, Greifswald, Germany
DZHK (German Center for Cardiovascular Research), Partner Site Greifswald, Greifswald, Germany
Department of Psychiatry and Psychotherapy, University Medicine Greifswald, Greifswald, Germany

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Matthias Nauck DZHK (German Center for Cardiovascular Research), Partner Site Greifswald, Greifswald, Germany
Institute of Clinical Chemistry and Laboratory Medicine, University Medicine Greifswald, Germany

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Rosalie B T M Sterenborg Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands
Department of Epidemiology, Erasmus Medical Center, Rotterdam, The Netherlands
Department of Internal Medicine, Radboud University Medical Center, Nijmegen, The Netherlands

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Joost H W Rutten Department of Internal Medicine, Radboud University Medical Center, Nijmegen, The Netherlands

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Marco Medici Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands
Department of Epidemiology, Erasmus Medical Center, Rotterdam, The Netherlands
Department of Internal Medicine, Radboud University Medical Center, Nijmegen, The Netherlands

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W Edward Visser Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands

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Marcel E Meima Department of Internal Medicine, Academic Centre for Thyroid Diseases, Erasmus University Medical Center Rotterdam, The Netherlands

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Objective

Thyroid hormone (TH) transport represents a critical first step in governing intracellular TH regulation. It is still unknown whether the full repertoire of TH transporters has been identified. Members of the solute carrier (SLC) 22 family have substrates in common with the known TH transporters of the organic anion-transporting peptide family. Therefore, we screened the SLC22 family for TH transporters

Methods

Uptake of 1 nM of iodothyronines or sulfated iodothyronines in COS1 cells expressing SLC22 proteins was performed.

Results

We first tested 25 mouse (m) SLC22 proteins for TH uptake and found that the majority of the organic anion transporter (OAT) clade were capable of 3,3’,5-triiodothyronine and/or thyroxine (T4) transport. Based on phylogenetic tree analysis of the mouse and human (h) SLC22 family, we selected eight hSLC22s that grouped with the newly identified mouse TH transporters. Of these, four tested positive for uptake of one or more substrates, particularly hSLC22A11 showed robust (3-fold over control) uptake of T4. Uptake of sulfated iodothyronines was strongly (up to 17-fold) induced by some SLC22s, most notably SLC22A8, hSLC22A9, mSLC22A27 and mSLC22A29. Finally, the zebrafish orthologues of SLC22A6/8 drOatx and drSlc22a6l also transported almost all (sulfated) iodothyronines tested. The OAT inhibitors lesinurad and probenecid inhibited most SLC22 proteins.

Conclusions

Our results demonstrated that members of the OAT clade of the SLC22 family constitute a novel, evolutionary conserved group of transporters for (sulfated) iodothyronines. Future studies should reveal the relevance of these transporters in TH homeostasis and physiology.

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