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Submitted on July 8, 2003
Accepted on November 10, 2003
1 The Wenner-Gren Institute (V. G., A. M., B. C., J. N.), The Arrhenius Laboratories F3, Stockholm University, SE-106 91 Stockholm, Sweden; Department of Cellular and Molecular Biology (H. G., B. V.), Karolinska Institute, SE-171 77 Stockholm, Sweden
* To whom correspondence should be addressed. E-mail: jan{at}metabol.su.se.
We have examined the metabolic role of hormone-binding nuclear thyroid hormone receptors (TRs). Mice devoid of all hormone-binding TRs (TR
1(-/-)
(-/-) ("TR-ablated mice") had slightly decreased body temperature and much decreased basal metabolic rate, were still able to markedly increase metabolic rate in the cold, but were cold-intolerant due to inadequate total heat production at low temperatures. A standard norepinephrine test showed that adrenergically induced thermogenesis could not be activated normally in the TR-ablated mice. This was not due to inadequate recruitment of brown adipose tissue, nor to the absence, decreased recruitment or dysfunction of the uncoupling protein-1 (UCP1). However, isolated brown-fat cells were 10-fold desensitized, explaining the lack of response to standard adrenergic stimuli; cell culture experiments demonstrated that this desensitization was not an innate effect. Thus, the cold intolerance was probably not due to inadequate sympathetically induced nonshivering thermogenesis. Additionally, the results indicated that no metabolic effects of thyroid hormones could become manifest in the absence of nuclear thyroid hormone receptors, that ligand-bound TRs were needed for euthermia and eumetabolism, but that TRs per se were not required for brown adipose tissue recruitment and UCP1 gene expression.
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