Insight into the physiological actions of thyroid hormone receptors from genetically modified mice

doi:10.1677/joe.0.1750553

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Insight into the physiological actions of thyroid hormone receptors from genetically modified mice

PJ O'Shea and GR Williams

Thyroid hormones exert a range of developmental and physiological actions in all vertebrates. Serum concentrations of L-thyroxine (T4) and 3,5,3 -L-triiodothyronine (T3) are maintained by a negative feedback loop involving T3-inhibition of hypothalamic thyrotrophin releasing hormone (TRH) and pituitary thyroid stimulating hormone (TSH) secretion, and by tissue specific and hormone-regulated expression of the three iodothyronine deiodinase enzymes that activate or metabolise thyroid hormones. T3 actions are mediated by two T3-receptors, TRalpha and TRbeta, which act as hormone-inducible transcription factors. The TRalpha (NR1A1) and TRbeta (NR1A2) genes encode mRNAs that are alternatively spliced to generate 9 mRNA isoforms (TRalpha1, alpha2, alpha3, Deltaalpha1, Deltaalpha2, beta1, beta2, beta3 and Deltabeta3), of which four (TRalpha1, alpha2, beta1 and beta2) are known to be expressed at the protein level in vivo. The numerous TR mRNAs are expressed widely in tissue- and developmental stage-specific patterns, although it is important to note that levels of mRNA expression may not correlate with receptor protein concentrations in individual tissues. The TRalpha2, alpha3, Deltaalpha1 and Deltaalpha2 transcripts encode proteins that fail to bind T3 in vitro. These non-binding isoforms, in addition to TRDeltabeta3 which does bind hormone, may act as dominant negative antagonists of the true T3-binding receptors in vitro, but their physiological functions and those of the TRbeta3 isoform have not been determined. In order to obtain a new understanding of the complexities of T3 action in vivo and the role of TRs during development, many mouse models of disrupted or augmented thyroid hormone signalling have been generated. The aim of this review is to provide a picture of the physiological actions of thyroid hormones by considering the phenotypes of these genetically modified mice.

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HELP

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				R. Keijzer, P.-J. E Blommaart, W. T Labruyere, J. L M Vermeulen, B. Z. Doulabi, O. Bakker, D. Tibboel, and W. H Lamers Expression of thyroid hormone receptors A and B in developing rat tissues; evidence for extensive posttranscriptional regulation J. Mol. Endocrinol., May 1, 2007; 38(5): 523 - 535. [Abstract] [Full Text] [PDF]

				L. F. R. Velasco, M. Togashi, P. G. Walfish, R. P. Pessanha, F. N. Moura, G. B. Barra, P. Nguyen, R. Rebong, C. Yuan, L. A. Simeoni, et al. Thyroid Hormone Response Element Organization Dictates the Composition of Active Receptor J. Biol. Chem., April 27, 2007; 282(17): 12458 - 12466. [Abstract] [Full Text] [PDF]

				C. B. Harvey, J. H. D. Bassett, P. Maruvada, P. M. Yen, and G. R. Williams The Rat Thyroid Hormone Receptor (TR) {Delta}{beta}3 Displays Cell-, TR Isoform-, and Thyroid Hormone Response Element-Specific Actions Endocrinology, April 1, 2007; 148(4): 1764 - 1773. [Abstract] [Full Text] [PDF]

				H. Zhou, C. M. Evock-Clover, J. P. McMurtry, C. M. Ashwell, and S. J. Lamont Genome-Wide Linkage Analysis to Identify Chromosomal Regions Affecting Phenotypic Traits in the Chicken. IV. Metabolic Traits Poult. Sci., February 1, 2007; 86(2): 267 - 276. [Abstract] [Full Text] [PDF]

				J. Mittag, E. Winterhager, K. Bauer, and R. Grummer Congenital Hypothyroid Female Pax8-Deficient Mice Are Infertile Despite Thyroid Hormone Replacement Therapy Endocrinology, February 1, 2007; 148(2): 719 - 725. [Abstract] [Full Text] [PDF]

				H. Winter, C. Braig, U. Zimmermann, H.-S. Geisler, J.-T. Franzer, T. Weber, M. Ley, J. Engel, M. Knirsch, K. Bauer, et al. Thyroid hormone receptors TR{alpha}1 and TR{beta} differentially regulate gene expression of Kcnq4 and prestin during final differentiation of outer hair cells J. Cell Sci., July 15, 2006; 119(14): 2975 - 2984. [Abstract] [Full Text] [PDF]

				I Stoykov, B Zandieh-Doulabi, A F M Moorman, V Christoffels, W M Wiersinga, and O Bakker Expression pattern and ontogenesis of thyroid hormone receptor isoforms in the mouse heart. J. Endocrinol., May 1, 2006; 189(2): 231 - 245. [Abstract] [Full Text] [PDF]

				N. M. Storey, S. Gentile, H. Ullah, A. Russo, M. Muessel, C. Erxleben, and D. L. Armstrong Rapid signaling at the plasma membrane by a nuclear receptor for thyroid hormone PNAS, March 28, 2006; 103(13): 5197 - 5201. [Abstract] [Full Text] [PDF]

				P. J. O'Shea, J. H. D. Bassett, S. Sriskantharajah, H. Ying, S.-y. Cheng, and G. R. Williams Contrasting Skeletal Phenotypes in Mice with an Identical Mutation Targeted to Thyroid Hormone Receptor {alpha}1 or {beta} Mol. Endocrinol., December 1, 2005; 19(12): 3045 - 3059. [Abstract] [Full Text] [PDF]

				D. R. Holsberger, S. E. Kiesewetter, and P. S. Cooke Regulation of Neonatal Sertoli Cell Development by Thyroid Hormone Receptor {alpha}1 Biol Reprod, September 1, 2005; 73(3): 396 - 403. [Abstract] [Full Text] [PDF]

				J. Mittag, S. Friedrichsen, H. Heuer, S. Polsfuss, T. J. Visser, and K. Bauer Athyroid Pax8-/- Mice Cannot Be Rescued by the Inactivation of Thyroid Hormone Receptor {alpha}1 Endocrinology, July 1, 2005; 146(7): 3179 - 3184. [Abstract] [Full Text] [PDF]

				V. Garcia-Campayo, I. Boime, X. Ma, D. Daphna-Iken, and T. R. Kumar A Single-Chain Tetradomain Glycoprotein Hormone Analog Elicits Multiple Hormone Activities In Vivo Biol Reprod, February 1, 2005; 72(2): 301 - 308. [Abstract] [Full Text] [PDF]

				M. Fernandez, A. Giuliani, S. Pirondi, G. D'Intino, L. Giardino, L. Aloe, R. Levi-Montalcini, and L. Calza Thyroid hormone administration enhances remyelination in chronic demyelinating inflammatory disease PNAS, November 16, 2004; 101(46): 16363 - 16368. [Abstract] [Full Text] [PDF]

				S. Frankton, C. B. Harvey, L. M. Gleason, A. Fadel, and G. R. Williams Multiple Messenger Ribonucleic Acid Variants Regulate Cell-Specific Expression of Human Thyroid Hormone Receptor {beta}1 Mol. Endocrinol., July 1, 2004; 18(7): 1631 - 1642. [Abstract] [Full Text] [PDF]

				C.-h. Shih, S.-L. Chen, C.-C. Yen, Y.-H. Huang, C.-d. Chen, Y.-S. Lee, and K.-h. Lin Thyroid Hormone Receptor-Dependent Transcriptional Regulation of Fibrinogen and Coagulation Proteins Endocrinology, June 1, 2004; 145(6): 2804 - 2814. [Abstract] [Full Text] [PDF]

				S. M. Dupre, H. Guissouma, F. Flamant, I. Seugnet, T. S. Scanlan, J. D. Baxter, J. Samarut, B. A. Demeneix, and N. Becker Both Thyroid Hormone Receptor (TR){beta}1 and TR{beta}2 Isoforms Contribute to the Regulation of Hypothalamic Thyrotropin-Releasing Hormone Endocrinology, May 1, 2004; 145(5): 2337 - 2345. [Abstract] [Full Text] [PDF]

				V. Golozoubova, H. Gullberg, A. Matthias, B. Cannon, B. Vennstrom, and J. Nedergaard Depressed Thermogenesis but Competent Brown Adipose Tissue Recruitment in Mice Devoid of All Hormone-Binding Thyroid Hormone Receptors Mol. Endocrinol., February 1, 2004; 18(2): 384 - 401. [Abstract] [Full Text] [PDF]

				J. Manzano, B. Morte, T. S. Scanlan, and J. Bernal Differential Effects of Triiodothyronine and the Thyroid Hormone Receptor {beta}-Specific Agonist GC-1 on Thyroid Hormone Target Genes in the Brain Endocrinology, December 1, 2003; 144(12): 5480 - 5487. [Abstract] [Full Text] [PDF]

				H. Heuer and C. A. Mason Thyroid Hormone Induces Cerebellar Purkinje Cell Dendritic Development via the Thyroid Hormone Receptor {alpha}1 J. Neurosci., November 19, 2003; 23(33): 10604 - 10612. [Abstract] [Full Text] [PDF]

				J. M. Harper, A. T. Galecki, D. T. Burke, S. L. Pinkosky, and R. A. Miller Quantitative trait loci for insulin-like growth factor I, leptin, thyroxine, and corticosterone in genetically heterogeneous mice Physiol Genomics, September 29, 2003; 15(1): 44 - 51. [Abstract] [Full Text] [PDF]