Intrinsic to the hypothalamic-pituitary-thyroid (HPT) axis are homeostatic and feedback mechanisms that maintain circulating and tissue levels of thyroxine (T4) and 3,3,5-triiodothyronine (T3) within strict limits. These hormone levels in turn influence a host of physiological processes critical to the health and adaptability of the organism. The type 3 deiodinase (D3), which functions to inactivate T4 and T3 in tissues, is a critical determinant of thyroid hormone (TH) action. The D3 is coded by a gene that is imprinted in mice (Dio3) and humans (DIO3). In both species, the D3 is highly expressed in the maternal-fetal unit and in the neonate, where it plays a critical role in ensuring that concentrations of TH are optimal for development and for programming of the HPT axis. Thus, mice deficient in D3 have altered serum TH levels, marked dysfunction of the hypothalamus, pituitary and thyroid glands, impaired growth and other phenotypic abnormalities. Our preliminary data derived from mouse models strongly suggest that alterations in TH status, can, through epigenetic mechanisms, induce marked changes in the expression patterns of the D3 in the hypothalamus and other tissues in subsequent generations of offspring. Thus, this proposal seeks to investigate the hypothesis that transgenerational epigenetic inheritance at the Dio3 locus influences the programming of the HPT axis and the regulation of TH metabolism and action throughout life. Furthermore, we speculate that TH itself, and thus the thyroid status of the animal, plays a key role in setting the epigenetic marks that determine, in part, D3 expression patterns in subsequent generations. Specifically, we propose herein experiments to: (1) Define the phenotypic consequences of the transgenerational inheritance patterns of the Dio3 observed in the descendants of an animal with an altered HPT axis; (2) Identify the epigenetic changes responsible for the varied patterns of Dio3 transgenerational inheritance. (3) Determine the role of TH in the induction of altered transgenerational epigenetic inheritance at the Dio3 locus during development and in adult animals. Notably, this heritable process may represent a novel transgenerational mechanism that provides the HPT axis with an additional degree of plasticity to adapt to homeostatic challenges. In addition, given the importance of the D3 in modulating the intracellular levels of TH, particularly in the developing and adult brain, this new paradigm implies an additional, heritable component to the action of TH that may impact mental health or conceivably predispose to metabolic or reproductive dysfunction.
In this proposal we will determine the role of a unique inherited epigenetic mechanism whereby the thyroid status of an ancestor influences the actions of thyroid hormones in subsequent generations by altering the ability of offspring to metabolize these regulatory compounds. We propose that this novel process not only influences the function of the thyroid axis itself, but also has important consequences with regards to human development and subsequent neurologic, metabolic and reproductive function and disease in later life.
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|Hernandez, Arturo; Stohn, J Patrizia (2018) The Type 3 Deiodinase: Epigenetic Control of Brain Thyroid Hormone Action and Neurological Function. Int J Mol Sci 19:|
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|Hernandez, Arturo (2018) Thyroid Hormone Role and Economy in the Developing Testis. Vitam Horm 106:473-500|
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|Wu, Zhaofei; Martinez, M Elena; St Germain, Donald L et al. (2017) Type 3 Deiodinase Role on Central Thyroid Hormone Action Affects the Leptin-Melanocortin System and Circadian Activity. Endocrinology 158:419-430|
|Ng, Lily; Liu, Hong; St Germain, Donald L et al. (2017) Deletion of the Thyroid Hormone-Activating Type 2 Deiodinase Rescues Cone Photoreceptor Degeneration but Not Deafness in Mice Lacking Type 3 Deiodinase. Endocrinology 158:1999-2010|
|Stohn, J Patrizia; Martinez, M Elena; Matoin, Kassey et al. (2016) MCT8 Deficiency in Male Mice Mitigates the Phenotypic Abnormalities Associated With the Absence of a Functional Type 3 Deiodinase. Endocrinology 157:3266-77|
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