William G. Keyes scite author profile

A B S T R A C T Thyroid disease is often accompanied by changes in the concentrations of serum lipids and lipoproteins. To evaluate the hepatic contribution to the serum abnormalities in thyroid disease, we examined fatty acid metabolism in perfused livers from pair-fed rats made hypothyroid with propylthiouracil (PTU) or made hyperthyroid by treatment with triiodothyronine (T3). The animals treated with T3 became hyperphagic, depending on dose of drug and duration of hyperthyroidism. It was necessary, therefore, for appropriate controls, that food intake of T3-treated rats be restricted to quantities consumed by euthyroid rats. Animals treated with PTU for 2 wk became hypophagic, and therefore, food consumption of controls was restricted to that eaten by rats receiving PTU. Dependent on dose of T3 and duration of treatment, the output of triglyceride and glucose was diminished, whereas output of ketone bodies was increased by livers from hyperthyroid animals. In contrast, livers from PTUtreated animals secreted increased amounts of triglyceride and glucose, whereas ketogenesis was diminished. The best models for study proved to be animals treated with either 10 gg T3/100 g body wt per d or 1 mg PTU/100 g body wt per d for 7 d. Under these conditions, all animals consumed the same quantity of food as did the euthyroid rats, but continued to display the metabolic alterations outlined above. The effects of PTU on hepatic metabolism were readily reversible by simultaneous administration ofT3. It is clear from these data that the thyroid status of the rat regulates hepatic triglyceride formation and secretion, and ketogenesis.

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Formation of the very low density lipoprotein and metabolism of [1-14C]-oleate by perfused livers from rats treated with triiodothyronine or propylthiouracil

Keyes

Wilcox

Heimberg

1981

Metabolism

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Oxygen Free Radicals and the Cerebral Arteriolar Response to Group B Streptococci

et al. 1992

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We used a cranial window preparation to observe the effects of direct application of group B streptococci to the surface of the brain in the adult rat. Continuous exposure to group B streptococci at concentrations of 10(3) and 10(5) organisms/mL caused progressive dilation of surface (pial) cerebral arterioles that became statistically significant (p less than 0.05) after 2.5 h. These results were reproduced with heat-killed organisms at the same concentration, but not with a bacteria-free filtrate of the growth medium. In separate studies, we found that infusion of alkaline cerebrospinal fluid (pH = 7.8) into the window did not reverse vasodilation, suggesting that it was not due to progressive cerebrospinal fluid acidosis. A solution of nitroblue tetrazolium infused into the window at the end of a 3-h exposure to the organism was promptly reduced, suggesting the presence of oxygen free radicals. Treatment with i.v. polyethylene glycol-superoxide dismutase and polyethylene glycol-catalase in doses of 10,000 and 20,000 U/kg, respectively, was itself without effect on pial arterioles, but treatment with these compounds before exposure to group B streptococci eliminated the vasodilation. These data support a role for oxygen free radicals in the pathogenesis of pial arteriolar dysfunction induced by exposure to group B streptococci.

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William G. Keyes

Randomized comparative trial of indomethacin and ritodrine for the long-term treatment of preterm labor

Influence of Thyroid Status on Lipid Metabolism in the Perfused Rat Liver

Formation of the very low density lipoprotein and metabolism of [1-14C]-oleate by perfused livers from rats treated with triiodothyronine or propylthiouracil

Oxygen Free Radicals and the Cerebral Arteriolar Response to Group B Streptococci

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