We have previously shown that several thyronamines, decarboxylated and deiodinated metabolites of the
thyroid hormone, potently activate an orphan
G protein-coupled receptor in vitro (TAAR1) and
induced hypothermia in vivo on a rapid time scale [Scanlan, T. S.; Suchland, K. L.; Hart, M. E.; Chiellini, G.; Huang, Y.; Kruzich, P. J.; Frascarelli, S.; Crossley, D. A.; Bunzow, J. R.; Ronca-Testoni, S.; Lin, E. T.; Hatton, D.; Zucchi, R.; Grandy, D. K.
3-Iodothyronamine is an endogenous and rapid-acting derivative of
thyroid hormone.
Nat. Med. 2004, 10 (6), 638-642]. Herein, we report the synthesis of these thyronamines. Additionally, a large number of thyroamine derivatives were synthesized in an effort to understand the molecular basis of TAAR1 activation and
hypothermia induction. Several derivatives were found to potently activate both rTAAR1 and mTAAR1 in vitro (compounds 77, 85, 91, and 92). When administered to mice at a 50 mg/kg dose, these derivatives all induced significant
hypothermia within 60 min and exhibited a hypothermic induction profile analogous to
3-iodothyronamine (1, T(1)AM) except 91, which proved to be more efficacious. On the basis of this result, a dose-dependent profile for 91 was generated and an ED(50) of 30 mumol/kg was calculated. Compound 91 proved to be more potent than T(1)AM for TAAR1 activation and exhibits increased potency and efficacy for
hypothermia induction. These data further strengthen the pharmacological correlation linking TAAR1 activation by thyronamines and
hypothermia induction in mice.