1. Academic Validation
  2. Pharmacological profile of the thyroid hormone receptor antagonist NH3 in rats

Pharmacological profile of the thyroid hormone receptor antagonist NH3 in rats

  • J Pharmacol Exp Ther. 2007 Jul;322(1):385-90. doi: 10.1124/jpet.106.116152.
Gary J Grover 1 Celeste Dunn Ngoc-Ha Nguyen Jamie Boulet Gao Dong Jason Domogauer Peter Barbounis Thomas S Scanlan
Affiliations

Affiliation

  • 1 Eurofins Scientific--Product Safety Laboratories, 2394 Hwy. 130, Dayton, NJ 08810, USA. garygrover@productsafetylabs.com
Abstract

NH3 is a Thyroid Hormone Receptor (TR) antagonist that inhibits binding of thyroid Hormones to their receptor and that inhibits cofactor recruitment. It was active in a tadpole tail resorption assay, with partial agonist activity at high concentrations. We determined the effect of NH3 on the cholesterol-lowering, thyroid stimulating hormone (TSH)-lowering, and tachycardic action of thyroid hormone (T(3)) in rats. Cholesterol-fed, euthyroid rats were treated for 7 days with NH3, and a dose response (46.2-27,700 nmol/kg/day) was determined. We also determined the effect of two doses of T(3) on the NH3 dose-response curve. NH3 decreased heart rate modestly starting at 46.2 nmol/kg/day, but the effect was lost at >2920 nmol/kg/day. At 27,700 nmol/kg/day, tachycardia was seen, suggesting partial agonist activity. NH3 increased plasma Cholesterol to a maximum of 27% at 462 nmol/kg/day. At higher doses, Cholesterol was reduced, suggesting partial agonist activity. Plasma TSH was increased from 46.2 to 462 nmol/kg/day NH3, but at higher doses, this effect was lost, and partial agonist effects were apparent. T(3) at 15.4 and 46.2 nmol/kg/day increased heart rate, reduced Cholesterol, and reduced plasma TSH. NH3 inhibited the cholesterol-lowering, TSH-lowering and tachycardic effects of 15.4 nmol/kg/day T(3), but much of the effect was lost at >924 nmol/kg/day doses. NH3 had no effect on the cholesterol-lowering action of 46.2 nmol/kg/day T(3), but it inhibited the tachycardic and TSH suppressant effects up to the 924 nmol/kg/day dose. Single doses of 462 and 27,700 nmol/kg caused no TR inhibitory effects. In conclusion, NH3 has TR antagonist properties on T(3)-responsive parameters, but it has partial agonist properties at higher doses.

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