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1. The activities in rat tissues of 3-oxo acid CoA-transferase (the first enzyme involved in acetoacetate utilization) were found to be highest in kidney and heart. In submaxillary and adrenal glands the activities were about one-quarter of those in kidney and heart. In brain it was about one-tenth and was less in lung, spleen, skeletal muscle and epididymal fat. No activity was detectable in liver. 2. The activities of acetoacetyl-CoA thiolase were found roughly to parallel those of the transferase except for liver and adrenal glands. The high activity in the latter two tissues may be explained by additional roles of thiolase, namely, the production of acetyl-CoA from fatty acids. 3. The activities of the two enzymes in tissues of mouse, gerbil, golden hamster, guinea pig and sheep were similar to those of rat tissues. The notable exception was the low activity of the transferase and thiolase in sheep heart and brain. 4. The activities of the transferase in rat tissues did not change appreciably in starvation, alloxan-diabetes or on fat-feeding, where the rates of ketone-body utilization are increased. Thiolase activity increased in kidney and heart on fat-feeding. 5. The activity of 3-hydroxybutyrate dehydrogenase did not change in rat brain during starvation. 6. The factors controlling the rate of ketone-body utilization are discussed. It is concluded that the activities of the relevant enzymes in the adult rat do not control the variations in the rate of ketone-body utilization that occur in starvation or alloxan-diabetes. The controlling factor in these situations is the concentration of the ketone bodies in plasma and tissues.

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Activities of enzymes of ketone-body utilization in brain and other tissues of suckling rats

Page

1971

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1. The activities of 3-hydroxybutyrate dehydrogenase and 3-oxo acid CoA-transferase in rat brain at birth were found to be about two-thirds of those of adult rat brain, expressed per g wet wt. The activities rose throughout the suckling period and at the time of weaning reached values about three times higher than those for adult brain. Later they gradually declined. 2. At birth the activity of acetoacetyl-CoA thiolase in rat brain was about 60% higher than in the adult. During the suckling period there was no significant change in activity. 3. In rat kidney the activities of the three enzymes at birth were less than one-third of those at maturity. They gradually rose and after 5 weeks approached the adult value. Similar results were obtained with rat heart. 4. The activity of glutamate dehydrogenase (a mitochondrial enzyme like 3-hydroxybutyrate dehydrogenase and 3-oxo acid CoA-transferase) also rose in brain and kidney during the suckling period, but at no stage did it exceed the adult value. 5. Throughout the suckling period the total ketone-body concentration in the blood was about six times higher than in adult fed rats, and the concentration of free fatty acids in the blood was three to four times higher. 6. It is concluded that the rate of ketone-body utilization in brains of suckling rats is determined by both the greater amounts of the key enzymes in the tissue and the high concentrations of ketone bodies in the blood. In addition, the low activities of the relevant enzymes in kidney and heart of suckling rats may make available more ketone bodies for the brain.

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The role of ketone bodies in caloric homeostasis

Krebs

Williamson

Bates

et al. 1971

Advances in Enzyme Regulation

126

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Enzymes of Ketone-Body Utilisation in Human Brain

Page

Williamson

1971

The Lancet

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Lactating mammary gland of the rat: a potential major site of ketone-body utilization

Page

Williamson

1972

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The lactating mammary gland of the ruminant can metabolize large amounts of D(-)-3-hydroxybutyrate for the synthesis of the lipid constituents of milk or as a fuel of respiration (Shaw & Knodt, 1941; Kumar et al., 1959; Barry et al., 1963; Kronfeld et al., 1968). However, until the demonstration by Kinsella (1970) that cultured rat mammary-gland cells can utilize 3-hydroxybutyrate for lipid synthesis, metabolism of ketone bodies by rat mammary gland had not been studied. The present paper gives the results of measurements of the activities of enzymes involved in ketone-body utilization in rat mammary gland at different stages of lactation. The results indicate that during lactation the mammary gland has the capacity to be a major site ofketone-body utilization in the rat. Methods

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M A Page

Activities of enzymes involved in acetoacetate utilization in adult mammalian tissues

Activities of enzymes of ketone-body utilization in brain and other tissues of suckling rats

The role of ketone bodies in caloric homeostasis

Enzymes of Ketone-Body Utilisation in Human Brain

Lactating mammary gland of the rat: a potential major site of ketone-body utilization

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