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Resistance to thyroid hormone induced tachycardia in RTHα syndrome

Authors :
Dore, Riccardo
Watson, Laura
Hollidge, Stefanie
Krause, Christin
Sentis, Sarah Christine
Oelkrug, Rebecca
Geißler, Cathleen
Johann, Kornelia
Pedaran, Mehdi
Lyons, Greta
Lopez-Alcantara, Nuria
Resch, Julia
Sayk, Friedhelm
Iwen, Karl Alexander
Franke, Andre
Boysen, Teide Jens
Dalley, Jeffrey W
Lorenz, Kristina
Moran, Carla
Rennie, Kirsten L
Arner, Anders
Kirchner, Henriette
Chatterjee, Krishna
Mittag, Jens
Dore, Riccardo [0000-0001-5988-9885]
Johann, Kornelia [0000-0002-5089-7237]
Franke, Andre [0000-0003-1530-5811]
Dalley, Jeffrey W [0000-0002-2282-3660]
Chatterjee, Krishna [0000-0002-2654-8854]
Mittag, Jens [0000-0001-7778-5158]
Apollo - University of Cambridge Repository
Publication Year :
2023
Publisher :
Springer Science and Business Media LLC, 2023.

Abstract

Mutations in thyroid hormone receptor α1 (TRα1) cause Resistance to Thyroid Hormone α (RTHα), a disorder characterized by hypothyroidism in TRα1-expressing tissues including the heart. Surprisingly, we report that treatment of RTHα patients with thyroxine to overcome tissue hormone resistance does not elevate their heart rate. Cardiac telemetry in male, TRα1 mutant, mice indicates that such persistent bradycardia is caused by an intrinsic cardiac defect and not due to altered autonomic control. Transcriptomic analyses show preserved, thyroid hormone (T3)-dependent upregulation of pacemaker channels (Hcn2, Hcn4), but irreversibly reduced expression of several ion channel genes controlling heart rate. Exposure of TRα1 mutant male mice to higher maternal T3 concentrations in utero, restores altered expression and DNA methylation of ion channels, including Ryr2. Our findings indicate that target genes other than Hcn2 and Hcn4 mediate T3-induced tachycardia and suggest that treatment of RTHα patients with thyroxine in high dosage without concomitant tachycardia, is possible.

Details

Database :
OpenAIRE
Accession number :
edsair.dedup.wf.001..2214b8ee0e893979e4a83335f2fc96e4