Thyroid Hormone Disruption And Neurodevelopment

Thyroid Hormone Disruption and Neurodevelopment

Author : Noriyuki Koibuchi

Publisher : Springer

Page : 207 pages

File Size : 11,13 MB

Release : 2016-11-11

Category : Medical

ISBN : 1493937375

Get eBook

Book Description

Thyroid hormone plays an important role in development and functional maintenance in the central nervous system. Deficiency of thyroid hormone during fetal and early postnatal life induces abnormal development known as cretinism in humans. However, the molecular mechanism of thyroid hormone action has not yet been fully understood. Thyroid hormone action in the brain may be disrupted under various pathological conditions. In addition, environmental factors including endocrine-disrupting chemicals and bacterial endotoxins may disrupt thyroid hormone action in brain, causing abnormal brain development and functional disruption. This is a first book to comprehensively describe the effect of thyroid hormone disruption in the central nervous system. The first section deals with the disruption of thyroid hormone action at the molecular level. First the authors provide a summary of the possible molecular mechanisms of thyroid hormone action in the brain, then they discuss several factors that may disrupt thyroid hormone action. In the second section, animal models to study thyroid hormone action will be introduced. An interesting character of thyroid hormone deficiency is that, without thyroid hormone, the thyroid hormone receptor may act as a “repressor” of gene expression, causing more severe consequence than those of thyroid hormone receptor knockout animals. Thus, several different kind of animal models may be used to clarify the role of thyroid hormone and its receptor in the brain. In the third section, human studies on thyroid disease and neurodevelopment will be introduced. Although endemic cretinism induced by iodine deficiency and sporadic cretinism by various thyroid mutation are well known, the pathophysiological mechanisms that create each abnormal phenotype are not fully understood. ​



Endocrine Disruptors, Brain, and Behavior

Author : Heather B. Patisaul

Publisher : Oxford University Press

Page : 273 pages

File Size : 41,70 MB

Release : 2017

Category : Medical

ISBN : 0199935734

Get eBook

Book Description

Our world and bodies are becoming increasingly polluted with chemicals capable of interfering with our hormones and thus, possibly, our present and future neural and mental health. This book focuses on if and how these chemicals, known as endocrine disrupting compounds (EDCs), affect the development and function of the brain and might be contributing to neural disorders rapidly rising in prevalence. It provides an overall synthesis of the EDC field including its historical roots, major hypotheses, key findings, public health policy implications, and research gaps.



Thyroid Hormone in Brain and Brain Cells

Author : Frédéric Flamant

Publisher : Frontiers Media SA

Page : 108 pages

File Size : 40,76 MB

Release : 2016-01-21

Category : Diseases of the endocrine glands. Clinical endocrinology

ISBN : 2889197026

Get eBook

Book Description

Thyroid hormone signaling has been known for a long time to be required for proper neurodevelopment and the maintenance of cognitive functions in the adult brain. As thyroid hormone excess or deficiency is usually well handled by clinicians, research dedicated to the neural function of thyroid hormone, have not been a priority within the field. This is changing mainly for two reasons. First, new genetic diseases have been discovered, altering thyroid hormone signaling in brain (THRA, MCT8, SBP2), with neurodevelopmental consequences which are currently incurable. Second, there is a growing concern that exposition of the general population to environmental chemicals able to interfere with thyroid hormone signaling compromises children neurodevelopment or induces central disorders in adults. Finally thyroid hormone is acting directly on gene transcription, by binding nuclear receptors, and therefore is an interesting entry point to identify genetic programs controlling brain development and function. Reaching a broad understanding of the multiple processes involving thyroid hormone in brain is a tremendous task which will necessitate a multidisciplinary approach: animal genetics, molecular biology, brain imaging, developmental biology, genomics, etc... This topic will be the occasion to combine recent contributions in the field and to identify priorities for future investigations. Due to devastating consequences of congenital hypothyroidism, the neurodevelopmental consequences of altered thyroid hormone signaling have been extensively studied over the years. The discovery of new genetic diseases, the concern about the possible neurotoxicity of environmental thyroid hormone disruptors, recently renewed the interest for an important research field. This Ebook gathers reviews and original data from experts in various disciplines. It provides a broad view of ongoing research and outlines key issues for future investigation.







A Multispecies Investigation of Thyroid Hormone Disruption

Author : Kyla Marie Walter

Publisher :

Page : pages

File Size : 23,44 MB

Release : 2018

Category :

ISBN : 9780438630222

Get eBook

Book Description

Thyroid hormones (THs) are essential for the proper development, growth and function of several organ systems, including the nervous, cardiovascular, and musculoskeletal systems. THs also contribute to homeostatic processes throughout life such as energy balance, thermoregulation, and endocrine regulation. Many environmental chemicals are suspected to disrupt the regulation of circulating TH concentrations and/or alter normal TH signaling. Thus, TH disruption is widely postulated as a mechanism by which environmental chemicals may cause adverse physiological outcomes. However, several gaps in our understanding of TH action and TH disruption have limited the development of predictive endpoints to screen chemicals for TH disruption. The five chapters contained herein investigate the use of two alternative models for studying TH disruption: larval zebrafish (Danio rerio) and housecats with naturally occurring hyperthyroidism. Zebrafish have been proposed as a promising model for studying TH-dependent mechanisms of neurodevelopment, screening chemicals for TH disrupting activity, and elucidating the adverse outcome pathways by which TH-disrupting chemical interfere with neurodevelopment. In Chapters 2-4, I characterized the impact of TH disruption in larval zebrafish. Several endpoints exhibited sensitivity to TH disruption including mRNA expression of core TH signaling genes, teratology, photomotor swimming behavior, and oligodendrocyte numbers in the spinal cord. These findings have significant implications for adapting zebrafish as a model for chemical screening and mechanistic studies of TH disrupting chemicals. In Chapter 5, I investigated the association between exposure to polychlorinated biphenyls (PCBs) and polybrominated diphenyl ether (PBDEs), two chemical families suspected to cause TH disruption, and the development of feline hyperthyroidism. I demonstrated that the sum total PBDE concentrations in our feline samples were approximately 50 times greater than concentrations previously reported in the human population from a geographically similar area, and I identified four PBDE congeners (BDE17, BDE100, BDE47, and BDE49) and five PCB congeners (PCB131, PCB153, PCB174, PCB180, and PCB196) with significantly higher concentrations in hyperthyroid cats compared to control cats. Domestic housecats, with their elevated exposure to PBDEs, may serve as sentinels for the adverse health effects associated with exposure to these environmental pollutants.