Your search keyword '"Dudazy-Gralla S"' showing total 2 results

1. Identification of thyroid hormone response elements in vivo using mice expressing a tagged thyroid hormone receptor α1.

Author

Dudazy-Gralla S, Nordström K, Hofmann PJ, Meseh DA, Schomburg L, Vennström B, and Mittag J

Subjects

Animals, Chromatin Immunoprecipitation, DNA genetics, DNA metabolism, Green Fluorescent Proteins chemistry, Mice, Mice, Transgenic, Thyroid Hormone Receptors alpha chemistry, Thyroid Hormones isolation & purification, Transcriptional Activation genetics, Response Elements genetics, Thyroid Hormone Receptors alpha genetics, Thyroid Hormones genetics

Abstract

TRα1 (thyroid hormone receptor α1) is well recognized for its importance in brain development. However, due to the difficulties in predicting TREs (thyroid hormone response elements) in silico and the lack of suitable antibodies against TRα1 for ChIP (chromatin immunoprecipitation), only a few direct TRα1 target genes have been identified in the brain. Here we demonstrate that mice expressing a TRα1-GFP (green fluorescent protein) fusion protein from the endogenous TRα locus provide a valuable animal model to identify TRα1 target genes. To this end, we analysed DNA-TRα1 interactions in vivo using ChIP with an anti-GFP antibody. We validated our system using established TREs from neurogranin and hairless, and by verifying additional TREs from known TRα1 target genes in brain and heart. Moreover, our model system enabled the identification of novel TRα1 target genes such as RNF166 (ring finger protein 166). Our results demonstrate that transgenic mice expressing a tagged nuclear receptor constitute a feasible approach to study receptor-DNA interactions in vivo, circumventing the need for specific antibodies. Models like the TRα1-GFP mice may thus pave the way for genome-wide mapping of nuclear receptor-binding sites, and advance the identification of novel target genes in vivo.

Published

2013

2. Thyroid hormone is required for hypothalamic neurons regulating cardiovascular functions.

Author

Mittag J, Lyons DJ, Sällström J, Vujovic M, Dudazy-Gralla S, Warner A, Wallis K, Alkemade A, Nordström K, Monyer H, Broberger C, Arner A, and Vennström B

Subjects

Animals, Blood Pressure genetics, Heart Rate genetics, Hypertension genetics, Hypertension pathology, Hypothalamus, Anterior pathology, Hypothyroidism genetics, Hypothyroidism metabolism, Hypothyroidism pathology, Mice, Mice, Transgenic, Mutation, Neurons pathology, Risk Factors, Tachycardia genetics, Tachycardia pathology, Thyroid Hormone Receptors alpha genetics, Thyroid Hormones genetics, Hypertension metabolism, Hypothalamus, Anterior metabolism, Neurons metabolism, Tachycardia metabolism, Thyroid Hormone Receptors alpha metabolism, Thyroid Hormones metabolism

Abstract

Thyroid hormone is well known for its profound direct effects on cardiovascular function and metabolism. Recent evidence, however, suggests that the hormone also regulates these systems indirectly through the central nervous system. While some of the molecular mechanisms underlying the hormone's central control of metabolism have been identified, its actions in the central cardiovascular control have remained enigmatic. Here, we describe a previously unknown population of parvalbuminergic neurons in the anterior hypothalamus that requires thyroid hormone receptor signaling for proper development. Specific stereotaxic ablation of these cells in the mouse resulted in hypertension and temperature-dependent tachycardia, indicating a role in the central autonomic control of blood pressure and heart rate. Moreover, the neurons exhibited intrinsic temperature sensitivity in patch-clamping experiments, providing a new connection between cardiovascular function and core temperature. Thus, the data identify what we believe to be a novel hypothalamic cell population potentially important for understanding hypertension and indicate developmental hypothyroidism as an epigenetic risk factor for cardiovascular disorders. Furthermore, the findings may be beneficial for treatment of the recently identified patients that have a mutation in thyroid hormone receptor α1.

Published

2013