Sara Danzi1, Steven Klein, Irwin Klein. 1. Feinstein Institute for Medical Research and the Department of Medicine, North Shore University Hospital, Manhasset, New York 11030, USA.
Abstract
BACKGROUND: The myosin heavy chain (MHC) genes are regulated by triiodothyronine (T3) in a reciprocal and chamber-specific manner. To further our understanding of the potential mechanisms involved, we determined the T3 responsiveness of the MHC genes, alpha and beta, and the beta-MHC antisense (AS) gene in the rat ventricles and atria. METHODS: Hypothyroid rats were administered a single physiologic (1 microg) or pharmacologic (20 microg) dose of T3, and sequential measurements of beta-MHC hn- and AS RNA and alpha-MHC heterogeneous nuclear RNA from rat ventricular and atrial myocardium were performed with reverse transcription PCR. RESULTS: We have demonstrated that T3 treatment increases the myocyte content of an AS beta-MHC RNA in atria and ventricles that includes sequences complementary to both the first 5' and last 3' introns of the beta-MHC sense transcript. In the hypothyroid rat ventricle, beta-MHC sense RNA expression is maximal, while in the euthyroid rat ventricle, beta-MHC AS RNA is maximal. beta-MHC AS expression increased by 52 +/- 9.8% at the peak, 24 hours after injection of a physiologic dose of T3 (1 microg/animal), while beta-MHC sense RNA decreased by 41 +/- 2.2% at 36 hours, the nadir. In hypothyroid atria, beta-MHC AS RNA was induced by threefold within 6 hours of administration of 1 microg T3, demonstrating that in the atria, beta-MHC AS expression is regulated by T3, while alpha-MHC expression is not. CONCLUSIONS: In the hypothyroid rat heart ventricle, beta-MHC AS RNA expression increases in response to T3 similar to that of alpha-MHC. Simultaneous measures of beta-MHC sense RNA are decreased, suggesting a possible mechanism for AS to regulate sense expression. In atria, while alpha-MHC is not influenced by thyroid state, beta-MHC sense and AS RNA were simultaneously and inversely altered in response to T3. This confirms a close positive relationship between T3 and beta-MHC AS RNA in both the atria and ventricles, while demonstrating for the first time that alpha- and beta-MHC expression is not coupled in the atria.
BACKGROUND: The myosin heavy chain (MHC) genes are regulated by triiodothyronine (T3) in a reciprocal and chamber-specific manner. To further our understanding of the potential mechanisms involved, we determined the T3 responsiveness of the MHC genes, alpha and beta, and the beta-MHC antisense (AS) gene in the rat ventricles and atria. METHODS:Hypothyroidrats were administered a single physiologic (1 microg) or pharmacologic (20 microg) dose of T3, and sequential measurements of beta-MHC hn- and AS RNA and alpha-MHC heterogeneous nuclear RNA from rat ventricular and atrial myocardium were performed with reverse transcription PCR. RESULTS: We have demonstrated that T3 treatment increases the myocyte content of an AS beta-MHC RNA in atria and ventricles that includes sequences complementary to both the first 5' and last 3' introns of the beta-MHC sense transcript. In the hypothyroidrat ventricle, beta-MHC sense RNA expression is maximal, while in the euthyroid rat ventricle, beta-MHC AS RNA is maximal. beta-MHC AS expression increased by 52 +/- 9.8% at the peak, 24 hours after injection of a physiologic dose of T3 (1 microg/animal), while beta-MHC sense RNA decreased by 41 +/- 2.2% at 36 hours, the nadir. In hypothyroid atria, beta-MHC AS RNA was induced by threefold within 6 hours of administration of 1 microg T3, demonstrating that in the atria, beta-MHC AS expression is regulated by T3, while alpha-MHC expression is not. CONCLUSIONS: In the hypothyroidrat heart ventricle, beta-MHC AS RNA expression increases in response to T3 similar to that of alpha-MHC. Simultaneous measures of beta-MHC sense RNA are decreased, suggesting a possible mechanism for AS to regulate sense expression. In atria, while alpha-MHC is not influenced by thyroid state, beta-MHC sense and AS RNA were simultaneously and inversely altered in response to T3. This confirms a close positive relationship between T3 and beta-MHC AS RNA in both the atria and ventricles, while demonstrating for the first time that alpha- and beta-MHC expression is not coupled in the atria.
Authors: F Haddad; A X Qin; P W Bodell; L Y Zhang; H Guo; J M Giger; K M Baldwin Journal: Am J Physiol Heart Circ Physiol Date: 2006-01-13 Impact factor: 4.733
Authors: Kalyan C Chapalamadugu; Catherine A Vandevoort; Matthew L Settles; Barrie D Robison; Gordon K Murdoch Journal: PLoS One Date: 2014-02-25 Impact factor: 3.240