Studies on the thyroid-hormone receptors in the nuclei of developing chick brain revealed a single class of binding sites for tri-iodothyronine (T3) and thyroxine (T4) at all embryonic and adult ages. High-affinity [Ka = (1.85-3.3) X 10(9)M-1 and (0.3-0.6 × 10(9)M-1 for T3 and T4 respectively] receptors were detected in the brain as early as day 7 of embryonic development; their level increased progressively rapidly until day 13, and thereafter the value remained essentially constant during development. Occupancy of the receptor site with endogenous hormone was 75-90% at 7-11 days, 50-60% during the late phase of embryogenesis (13-17 days), and 80% after hatching. Comparison of the binding properties of the receptors with T3 and T4 indicates that, although the binding capacities per nucleus are almost identical, T4 has four to five times less binding affinity than T3. The half-lives of dissociation of solubilized T3- receptor complexes were 20-30h between 0 degrees and 7 degrees C, about 4h at 20 degrees C and less than 15 min at 37 degrees C. Studies of the regional distribution of receptors in the brain indicate that cerebrum has the highest concentration of T3 receptors (4000-7000 sites per nucleus); this concentration is 2-4-fold higher than that in the cerebellum, optic lobe or medulla oblongata. The overall results indicate that between 7 and 13 days of embryonic development the thyroid-hormone receptors in the embryonic chick brain, particularly in the cerebrum, assume a very high level and appear to be mostly saturated with endogenous hormone. This, and the temporal correspondence of the phenomenon with the period of neuronal growth and synaptogenesis, strongly indicate the influence of the hormone in the maturation of the developing brain.
Tissue-specific thyroid hormone regulation of gene transcripts encoding iodothyronine deiodinases and thyroid hormone receptors in striped parrotfish (Scarus iseri)