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Literature DB >> 16283553

Adaptive activation of thyroid hormone and energy expenditure.

Antonio C Bianco¹, Ana Luiza Maia, Wagner Seixas da Silva, Marcelo A Christoffolete.

Abstract

The mechanisms by which thyroid hormone accelerates energy expenditure are poorly understood. In the brown adipose tissue (BAT), activation of thyroid hormone by type 2 iodothyronine deiodinase (D2) has been known to play a role in adaptive energy expenditure during cold exposure in human newborns and other small mammals. Although BAT is not present in significant amounts in normal adult humans, recent studies have found substantial amounts of D2 in skeletal muscle, a metabolically relevant tissue in humans. This article reviews current biological knowledge about D2 and adaptive T3 production and their roles in energy expenditure.

Entities: Gene Species

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Year: 2005 PMID： 16283553 DOI： 10.1007/s10540-005-2885-6

Source DB: PubMed Journal: Biosci Rep ISSN： 0144-8463 Impact factor: 3.840

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Cited

41 in total

1. Association analyses of variants in the DIO2 gene with early-onset type 2 diabetes mellitus in Pima Indians.

Authors: Saraswathy Nair; Yunhua Li Muller; Emilio Ortega; Sayuko Kobes; Clifton Bogardus; Leslie J Baier
Journal: Thyroid Date: 2011-12-05 Impact factor: 6.568

2. Neuronal hypoxia induces Hsp40-mediated nuclear import of type 3 deiodinase as an adaptive mechanism to reduce cellular metabolism.

Authors: Sungro Jo; Imre Kalló; Zsuzsanna Bardóczi; Rafael Arrojo e Drigo; Anikó Zeöld; Zsolt Liposits; Anthony Oliva; Vance P Lemmon; John L Bixby; Balázs Gereben; Antonio C Bianco
Journal: J Neurosci Date: 2012-06-20 Impact factor: 6.167

3. Crossing the hurdles of thyroid hormone receptor-α activation.

Authors: Miriam O Ribeiro; Antonio C Bianco
Journal: Endocrinology Date: 2011-03 Impact factor: 4.736

Review 4. Minireview: cracking the metabolic code for thyroid hormone signaling.

Authors: Antonio C Bianco
Journal: Endocrinology Date: 2011-06-28 Impact factor: 4.736

Review 5. Paradigms of Dynamic Control of Thyroid Hormone Signaling.

Authors: Antonio C Bianco; Alexandra Dumitrescu; Balázs Gereben; Miriam O Ribeiro; Tatiana L Fonseca; Gustavo W Fernandes; Barbara M L C Bocco
Journal: Endocr Rev Date: 2019-08-01 Impact factor: 19.871

6. Normalized difference vegetation index, temperature and age affect faecal thyroid hormone concentrations in free-ranging African elephants.

Authors: Isabelle D Szott; Yolanda Pretorius; Andre Ganswindt; Nicola F Koyama
Journal: Conserv Physiol Date: 2020-04-04 Impact factor: 3.079

7. Body Composition, Resting Energy Expenditure, and Metabolic Changes in Women Diagnosed with Differentiated Thyroid Carcinoma.

Authors: Elena Izkhakov; Nachum Vaisman; Sophie Barnes; Micha Barchana; Naftali Stern; Lital Keinan-Boker
Journal: Thyroid Date: 2019-06-20 Impact factor: 6.568

8. Variable Cold-Induced Brown Adipose Tissue Response to Thyroid Hormone Status.

Authors: Alina Gavrila; Per-Olof Hasselgren; Allison Glasgow; Ashley N Doyle; Alice J Lee; Peter Fox; Shiva Gautam; James V Hennessey; Gerald M Kolodny; Aaron M Cypess
Journal: Thyroid Date: 2016-11-29 Impact factor: 6.568

Review 9. Regulation of the hypothalamic thyrotropin releasing hormone (TRH) neuron by neuronal and peripheral inputs.

Authors: Eduardo A Nillni
Journal: Front Neuroendocrinol Date: 2010-01-13 Impact factor: 8.606

10. A thyroid hormone challenge in hypothyroid rats identifies T3 regulated genes in the hypothalamus and in models with altered energy balance and glucose homeostasis.

Authors: Annika Herwig; Gill Campbell; Claus-Dieter Mayer; Anita Boelen; Richard A Anderson; Alexander W Ross; Julian G Mercer; Perry Barrett
Journal: Thyroid Date: 2014-09-02 Impact factor: 6.568