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ABSTRACT
The time-course of changes in the nuclear 3,5,3′-tri-iodothyronine (T3) receptor-binding capacity (Bmax) of longissimus dorsi muscle has been investigated in cold-acclimated young pigs after a single large meal. Measurement of Bmax values 4, 8, 12 and 24 h after feeding indicated a decline in receptor numbers after food intake with the lowest values occurring at 8 h. The receptor numbers then increased significantly, with the values at 12 h being more than 50% higher than those obtained at 8 h. The Bmax values reached their highest level 24 h after feeding. No significant changes in the dissociation constant were observed. Possible reasons for the changes in T3 receptor numbers are discussed and it is suggested that the increase in T3 receptor numbers 12–24 h after feeding may play a role in enhancing the thermogenic capacity of the tissues in response to food.
Journal of Endocrinology (1992) 134, 67–72
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ABSTRACT
These studies investigated a number of possible mechanisms which could mediate the increase in plasma concentrations of thyroid hormones after a meal in young growing pigs. It has been established that in animals fed one meal a day, an immediate rise in plasma 3,5,3′-tri-iodothyronine (T3) and a slightly delayed increase in thyroxine (T4) levels are followed by a more sustained peak in both hormones several hours later. The increase in thyroid hormones involves both total and free T3 and T4, and there is no change in plasma albumin, the high-capacity thyroid hormone-binding protein in the pig. It has also been shown that the immediate rise in plasma T3 is not mediated either by an increase in plasma glucose concentration or by neural mechanisms associated with distension of the gastrointestinal tract. However, the finding that plasma T3 increases rapidly after feeding in thyroidectomized animals maintained on a replacement dose of T4 alone, indicates the source of T3 to be non-thyroidal.
It is concluded that the rise in plasma thyroid hormones after a meal depends on the energy content of the food but not directly on the circulating glucose levels. The immediate increases in plasma T3 and T4 are probably due largely to a redistribution of the hormonal pools, and peripheral 5′-monodeiodination of T4 may also contribute significantly to the post-prandial rise in T3. The potential significance of these findings in relation to both the metabolic and growth-promoting effects of thyroid hormones is discussed.
Journal of Endocrinology (1993) 139, 131–141
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Abstract
Thyroid hormones have been implicated in the regulation of nuclear 3,5,3′-tri-iodothyronine (T3) receptor binding capacity (Bmax) but, despite numerous in vivo and in vitro studies, there is considerable controversy regarding their exact role. Since changes in thyroid status alter energy balance and hence may influence T3 receptor numbers, the effects of chronic hypothyroidism and T4 treatment have been studied in young pigs under conditions of controlled energy intake. Four groups of animals comprising a hypothyroid, a euthyroid and a hyperthyroid group, all on the same level of food intake, and a hyperthyroid group on twice the amount of food were used. After 3 weeks on the treatment regimes, both the hypothyroid animals on the same level of food intake and the hyperthyroid animals on twice the amount of food had significandy increased Bmax values (97% and 137% higher respectively) compared with euthyroid controls. However, there was no difference between controls and the hyperthyroid animals on the same level of food intake. In a second study, the effects of short-term treatment of euthyroid animals with T3 was investigated. Results showed that in two groups of controls that received intravenous saline, those on a higher food intake had higher Bmax values (76% increase). Intravenous T3 administration to animals on a low food intake did not change the receptor numbers. In none of the studies was there any change in the dissociation constant of the receptors as a result of different treatments. It is suggested that, at least in postnatal life, thyroid hormones per se have no significant effect on nuclear T3 receptor numbers in skeletal muscle. Instead, changes in Bmax in response to thyroid status may be secondary to alterations in energy balance induced by these hormones.
Journal of Endocrinology (1995) 144, 233–242