Modulation of T₄ 5'-Monodeiodination in Rat Anterior Pituitary and Liver Homogenates by Thyroid States and Fasting

Abstract

In order to clarify the role of the pituitary conversion of L-thyroxine (T₄) to 3, 5, 3'-L-triiodothyronine (T₃) in regulating thyrotropin (TSH) secretion, the effect of altered thyroid states and fasting on intrapituitary T₃ generation was investigated by a paperchromatographic procedure using the anterior pituitary homogenates. Hepatic T₃ generation was also studied for comparison.
The rate of pituitary and hepatic T₃ generation in normal rats averaged 25.2±12.4 (mean±SE) fmoles T₃/mg protein/min and 33.8±12.7 fmoles T₃/mg protein/min, respectively. T₄ treatment raised the hepatic T₃ generation from T₄ (46.7±3.1 fmoles T₃/mg protein/min) and lowered the intrapituitary T₃ generation (4.5±0.2 fmoles T₃/ mg protein/min). On the contrary, thyroidectomy slowed the hepatic T₄ 5'-deiodination (11.0±2.8 fmoles T₃/mg protein/min), and accelerated the pituitary T₄ 5'-deiodination (64.3±1.4 fmoles T₃/mg protein/min). In 48h fasted rats, serum T₄, T₃ and TSH concentrations were all lower than those in fed rats, and both pituitary and hepatic T₃ generations were also suppressed.
Thus, altered thyroid states cause an opposite effect on pituitary and liver 5'-monodeiodination, whereas fasting causes similar changes. The findings suggest the existence of an autoregulatory mechanism for thyroid hormone activation within the target tissues.