Cellular Physiology and Biochemistry (Aug 2015)

The Impact of a Non-Functional Thyroid Receptor Beta upon Triiodotironine-Induced Cardiac Hypertrophy in Mice

  • Güínever Eustáquio do Império,
  • Isalira Peroba Ramos,
  • Letícia Aragão Santiago,
  • Guilherme Faria Pereira,
  • Norma Aparecida dos Santos Almeida,
  • Cesar Seigi Fuziwara,
  • Carmen C. Pazos-Moura,
  • Edna Teruko Kimura,
  • Emerson Lopes Olivares,
  • Tania Maria Ortiga-Carvalho

DOI
https://doi.org/10.1159/000430370
Journal volume & issue
Vol. 37, no. 2
pp. 477 – 490

Abstract

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Background/Aims: Thyroid hormone (TH) signalling is critical for heart function. The heart expresses thyroid hormone receptors (THRs); THRα1 and THRβ1. We aimed to investigate the regulation mechanisms of the THRβ isoform, its association with gene expression changes and implications for cardiac function. Methods: The experiments were performed using adult male mice expressing TRβΔ337T, which contains the Δ337T mutation of the human THRB gene and impairs ligand binding. Cardiac function and RNA expression were studied after hypo-or hyperthyroidism inductions. T3-induced cardiac hypertrophy was not observed in TRβΔ337T mice, showing the fundamental role of THRβ in cardiac hypertrophy. Results: We identified a group of independently regulated THRβ genes, which includes Adrb2, Myh7 and Hcn2 that were normally regulated by T3 in the TRβΔ337T group. However, Adrb1, Myh6 and Atp2a2 were regulated via THRβ. The TRβΔ337T mice exhibited a contractile deficit, decreased ejection fraction and stroke volume, as assessed by echocardiography. In our model, miR-208a and miR-199a may contribute to THRβ-mediated cardiac hypertrophy, as indicated by the absence of T3-regulated ventricular expression in TRβΔ337T mice. Conclusion: THRβ has important role in the regulation of specific mRNA and miRNA in T3-induced cardiac hypertrophic growth and in the alteration of heart functions.

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