Hepatic Subcellular Fractions Lipids in Rats Fed Millet (Sorghum vulgarie) at Different Protein Levels

Effect of feeding defatted millet (Sorghum vulgarie) flour at 5, 10 and 14.5% protein levels respectively for six weeks has been studied on rat liver mitochondrial, microsomal and supernatant fractions total lipids, cholesterol, triglycerides, total phospholipids, phosphatidyl choline and phosphatidyl ethanolamine. The results have been compared with rats fed casein at 10% level for the same period. The metabolism of liver subcellular fractions lipids of millet diet and casein diet fed rats has been studied by the incorporation of acetate-1-¹⁴C and . A significant increase in mitochondrial triglycerides of rats fed millet diet at 5 and 10% protein level, in microsomes of rats fed millet diet at 5, 10 and 15% protein levels and in supernatant fractions of rats fed millet diet at 5 and 15% protein levels was observed. A significant increase in total cholesterol in mitochondria and microsomes and a significant decrease in supernatant fraction of rats fed millet diet at 10% protein level was observed. A significant increase in mitochondrial total phospholipids, phosphatidyl choline and phosphatidyl ethanolamine in rats fed millet diet at 10% protein level and a decrease in these in rats fed millet diet at 5 per cent protein level was observed. In microsomes total phospholipids were increased in rats millet diet at 10% protein level and phosphatidyl choline was increased in rats fed millet diet at 15% protein level. Total phospholipids, phosphatidyl choline and phosphatidyl ethanolamine were significantly reduced in the supernatant fraction of rats fed millet at 10% protein level.

Incorporation of acetate-1-¹⁴C into nonsaponifiable fraction of mitochondria, microsomes and supernatant fractions of rats fed millet diet at 5 and 15 % protein levels was significantly greater, and in saponifiable fractions of the above subcellular fractions was greater in rats fed millet diet at 5 per cent protein level. The specific activity (counts/min/mg) of free cholesterol in mitochondria, microsomes and supernatant fractions of millet diet fed rats was significantly greater, whereas the specific activity of triglycerides was not significantly different from the controls. The acetate-1-¹⁴C specific activity of phosphatidyl choline and phosphatidyl ethanolamine was significantly greater in all the above subcellular fractions of millet diet fed rats (except of phosphatidyl choline in rats fed millet diet at 5 % protein level). The specific activities of phosphatidyl choline were significantly greater in mitochondria of rats fed millet diet at 5 % protein level and of phosphatidyl choline and phosphatidyl ethanolamine in microsomes and supernatant fractions of rats fed millet diet at 5 and 15% protein levels. The specific activities of phosphatidyl choline were significantly decreased in mitochondria and microsomes of rats fed millet diet at 10% protein level. The total acetate-1-¹⁴C activities (counts/min/g equivalent wet liver) of free and esterified cholesterol triglycerides, phosphatidyl choline and phosphatidyl ethanolamine showed that their synthesis from acetate-1-¹⁴C was either enhanced in millet diet fed rats or was comparable to the controls. The total activity of (counts/min/g equivalent wet liver) into phosphatidyl choline and phosphatidyl ethanolamine showed that their synthesis was decreased in microsomes of rats fed millet diet at 10% protein level, increased in rats fed millet diet at 5 and 15% protein levels.     

Effect of Feeding Defatted Millet (Sorghum vulgarie) Flour at Different Protein Levels on Phospholipids of Rat Liver

Effect of feeding defatted millet flour at 5, 10 and 14.5 percent protein levels respectively to rats for 6 weeks has been studied on their liver phospholipids. Feeding of millet at these protein levels significantly increased liver total lipids and total glycerides as compared to control rats fed casein at 10 percent level. Liver phospholipids and phosphatidyl choline were significantly increased in rats fed millet at 10 and 14.5 percent protein levels whereas phosphatidyl ethanolamine was increased in all millet protein fed groups. Incorporation of (counts/liver/100 g body weight) into liver total phospholipids, phosphatidyl choline and phosphatidyl ethanolamine was significantly increased in M–5 and M–15% groups and it was decreased in phosphatidyl choline in rats of M–10% groups as compared to control. The effects of feeding millet on liver phospholipids are due to the quantity as well as quality of the millet protein.     

Effect of Retinol on Liver Lipid Metabolism of Rats

Effect of feeding 4.23, 16.94 and 27.53 mg of retinol daily for 10 days on the liver lipids of adult rats has been studied. Feeding of different amounts of retinol produced dose dependent toxicity symptoms in rats. Retinol feeding resulted in significant elevations of liver total lipids, total fatty acids, and glycerides, The amounts of liver esterified cholesterol were significantly raised in rats fed different amounts of retinol. Acetate-1-¹⁴C incorporation was increased in liver total cholesterol of rats fed 27.53 mg retinol and in free cholesterol of all retinol fed rats. Total ¹⁴C activity of hepatic triglycerides of retinol fed rats was the same as that of control, but their specific activity was decreased. Significant alterations were noted in phosphatidyl serine, lysophosphatidyl choline, lysophosphatidyl ethanolamine, sphingomyelin, phosphatidyl choline, phosphatidyl ethanolamine and phosphatidic acid and polyglycerophosphate fractions in liver rats fed different amounts of retinol.     

In vivo covalent binding of 14CCl4 metabolites in liver microsomal lipids

Covalently bound ¹⁴C from ¹⁴CCl₄ is preferentially localized in the lipids of hepatic microsomes of rats within 15 min. Label was recovered in all classes of lipids isolated from the microsomal lipid extract by diethylaminoethyl column chromatography. Among phospholipids, specific activity was the highest in the fraction containing phosphatidyl serine and lowest in phosphatidyl choline. Cholesterol esters had more than ten times the specific activity of cholesterol.     

Effect of Feeding Millet (Sorghum vulgarie) Protein on Growth,Nucleic Acids and Proteins of Liver and Plasma of Rats

Effect of feeding millet (Sorghum vulgarie) at 5, 10 and 15 per cent protein levels respectively for a period of six weeks to rats on their liver DNA, RNA and proteins of liver, its subcellular fractions and plasma has been studied, and results compared with rats fed casein at 10 per cent level. Both liver DNA and RNA of rats fed millet at 5 per cent protein level were significantly increased. Liver proteins (mg/l00 g body weight) of rats fed millet at 5 and 10 per cent protein level were significantly increased and plasma proteins decreased. Incorporation of leucine-I-¹⁴C into both liver and plasma proteins of rats fed millet was significantly higher than the control.     

Metabolism of Serine in Growing Rats and Chicks at Various Dietary Protein Levels

The metabolic fate of the carbon skeleton of l-serine-U-¹⁴C has been investigated, in vivo and in vitro, in growing rats and chicks fed the diets with various protein calories percents (PC%) at 410 kcal of metabolizable energy.

The incorporation of ¹⁴C into body protein at 12 hr after the injection of serine-¹⁴C was about 49% of the injected dose in rats fed the 10 or 15 PC % diet, though the value was reduced in rats fed lower and higher protein diets. The ¹⁴CO₂ production was smaller in rats fed the 10 and 15 PC% diet, and it showed an inverse pattern to that of the ¹⁴C incorporation into body protein. Urinary excretion of ¹⁴C was higher in rats fed 10 and higher PC% diets, whose growth rate and net body protein retention were maximum.

In contrast to the case of rats, the incorporation of ¹⁴C into body protein of chicks at 6 hr after the injection was rather reduced in the 15 PC% group. The proportion of ¹⁴C excreted as uric acid was remarkably increased above the 10 PC% group, and about 19% of the injected dose was recovered in the 50 PC% group.

The catabolic rate of serine in the liver slices of rats and chicks was increased by high protein diets.

These results support the concept that the nutritional significance of metabolism of the carbon skeleton of serine in growing rats and chicks is different from each other, especially at high protein diets.     

Metabolism of Glycine and Threonine in Growing Rats at Various Dietary Protein Levels

The metabolic fates of the carbon skeletons of [U-¹⁴C]glycine and l-[U-¹⁴C]threonine were investigated in growing rats fed with diets containing different percentages of protein calories (0, 5, 10, 15, and 30PC%) at 4100 kcal of metabolizable energy per kg of diet.

The incorporation of ¹⁴C into the body protein at 12 hr after the injection of ¹⁴C-glycine was about 58% of the dose in rats fed with the 10 or 15 PC% diet, and the values were reduced in both the lower and higher PC% groups. A considerable amount of ¹⁴C was recovered in the soluble fraction, and it was attributed to labeled glycine and serine in the free amino acid pools of the tissues.

The incorporation of ¹⁴C into the body protein from ¹⁴C-threonine was extremely high in the dietary groups of 0 to 10 PC%, and it decreased in the 30PC% group. Conversely, the expired ¹⁴C0₂ production was much less until the dietary protein level reached at 10PC%, and it increased with higher PC% in the diets. The change in the activity of hepatic threonine dehydratase in rats fed diets with increasing protein levels was similar to that of the expired ¹⁴C0₂ production from ¹⁴C- threonine.

These results indicate that, though the metabolic patterns for glycine and threonine differ from each other, their responses to dietary protein levels change at 10 to 15 PC%, where the growth rate reached its approximate maximum.     

Metabolism of Histidine in Growing Rats at Various Dietary Protein Levels

The metabolic fate of the carbon skeleton of l-(U-¹⁴C)-histidine has been investigated in growing rats fed diets containing different percentages of protein calories (0, 5, 10, 15 and 30 PC%) at 410 kcal of metabolizable energy per 100 g diet.

The incorporation of ¹⁴C into body protein at 12 hr after injection of ¹⁴C-histidine was about 70% of the dose in rats fed 0 to 10 PC% diets, though the value was reduced in rats fed higher PC% diets. The expired ¹⁴CO₂ production was depressed in the low protein groups, and it showed an inverse pattern to that of ¹⁴C incorporation into body protein. Urinary excretion of ¹⁴C was about 20% of the dose in all dietary groups. The activities of hepatic histidase, urocanase and histidine-pyruvate aminotransferase were increased in the 30 PC% group.

These results indicate that the metabolic response of histidine to dietary protein changes around 10 PC%, where growth rate and body protein retention reached approximate plateaus.

The nutritional significance of the metabolism of histidine has been discussed and compared with that of leucine, alanine and serine reported previously.     

Effects of Dietary Polychlorinated Biphenyls and Protein Level on Liver and Serum Lipid Metabolism of Rats

The effects of polychlorinated biphenyls (PCB) and dietary protein level on the liver and serum lipid metabolism of rats were studied. Rats were fed an experimental diet containing 7 or 30% casein with or without 0.1 % PCB for 24 days. Dietary PCB increased the level of triglyceride, phospholipid and cholesterol in the liver. The accumulation of triglyceride and cholesterol in liver was markedly increased with a low protein diet. The incorporation of injected ³H₂O into liver cholesterol was increased by PCB, but not affected by the dietary level of protein. The incorporation of the tracer into liver fatty acids was not increased by PCB intake. Dietary PCB also raised serum cholesterol and phospholipid, while PCB decreased triglyceride level, especially in rats on low protein diet. In addition, PCB intake clearly raised serum high density lipoprotein and diminished very low density lipoprotein. In the low protein group, PCB markedly repressed the incorporation of ³H₂O into serum lipids. The results suggest that the hepatic lipids accumulation by the addition of 0.1 % PCB to a low protein diet might be mainly ascribed to a repression in the transport of triglyceride from liver to blood. KEY WORDS: PCB, dietary protein, liver lipids, serum lipoprotein.     

Glycine-U-14C Metabolism in Young Rats Fed the 10% Casein Diets Containing Excess Glycine

Nine hours after rats fed ad libitum for 14 days a 10% caein diet (10C), a 10% casein diet containing 7% glycine (10C7G) and a 10% casein diet containing 7% glycine with 1.4% l-arginine HCI and 0.9% l-methionine (10C7GArgMet) were force-fed 10 ml of each diet suspension containing 5 μCi of glycine-U-¹⁴C per 100 g of body weight, the radioactivity recoveries of ¹⁴C in expired CO₂, tissue components and urine were determined.

The radioactivity recovery of ¹⁴C in the expired C0₂ of the 10C7G group was generally higher than that of the 10C7GArgMet group, and those of both groups would have been much higher than that of the 10C group unless the isotope had been diluted. The amount of expiratory ¹⁴C of rats fed a 25 % casein diet containing 7% glycine was not different from that of the 10C7G group. The recovery of ¹⁴C in the trichloroacetic acid (TCA) soluble fraction of muscle of the 10C7G and the 10C7GArgMet groups were greater than that of the 10C group, but there was no difference between the 10C7G and the 10C7GArgMet groups. The recoveries of ¹⁴C in the TCA soluble fraction and protein of plasma and liver, and the muscle protein were negligible in all the groups. The amount of glycine-¹⁴C incorporated into the carcass lipids of the 10C7GArgMet group was larger than that of other groups. Those in the carcass lipids of the 10C7G and the 10C7GArgMet groups would have been much higher than that of the 10C group unless the dilution of the isotope had taken place. The recoveries of ¹⁴C in the liver and muscle glycogen, and liver lipids were remarkably small in all the groups. From the above results, it was suggested that the degradation of glycine-¹⁴C to expiratory CO₂ was not accelerated, but the rate of incorporation of the isotope into carcass lipids was increased by the supplementation of l-arginine and l-methionine to the 10C7G diet as compared with that of rats fed the 10C7G diet.     

Influence of Dietary Carbohydrate,Fat, and Protein on Lipogenesis in Rats

The incorporation of ¹⁴C of acetate-1-¹⁴C into the lipids of the liver and carcass, and the changes in the concentrations of nucleotides and citric acid in the liver were studied in the rats fed individual nutrients; starch, casein or corn oil. And the metabolism of citric acid-1,5-¹⁴C was also investigated after the feeding of nutrients. Lipogenesis in the liver and carcass was more markedly stimulated with starch than with casein or corn oil. In the liver of rats fed starch, the concentration of ATP doubled and that of citric acid was one-half of those with casein or corn oil, respectively. And the conversion of citric acid to carbon dioxide and lipids was stimulated with starch.     

Total polar lipid biosynthesis during growth of Crotalaria juncea pollen tubes

[1-¹⁴C]-Acetate incorporation into total and polar lipids was studied in the growing pollen tubes of Crotalaria juncea. Ungerminated pollen had phosphatidyl inositol, phosphatidyl serine, phosphatidyl choline, phosphatidyl ethanolamine, phosphatidyl glycerol, monogalactosyl diglyceride, digalactosyl diglyceride, sulpholipid and steryl glycosides. In the growing pollen tubes considerable [1-¹⁴C]-acetate incorporation was observed into the individual polar lipids. The exogenous carbon source significantly influenced lipid biosynthesis. Boric acid (20mg/l.) promoted both pollen tube growth and acetate incorporation into phospholipids. In comparison to 5′-adenosine monophosphate, cyclic-3′,5′-adenosine monophosphate (cAMP) promoted tube growth and also enhanced phospho-and glycolipid biosynthesis. The regulation of membrane component biosynthesis by cAMP is suggested.     

Synthesis of Terpene Alcohol Esters by Lipase

The metabolic fates of the carbon skeletons of L-(U-¹⁴C)arginine, proline and glutamic acid were investigated in growing rats fed with diets containing different percentages of protein calories (0, 5, 10, 15 and 30 PC%) at 4100 kcal of metabolizable energy per kg of diet.

The incorporation of ¹⁴C into body protein at 12hr after the injection of ¹⁴C-arginine was more than 50% of the dose in all dietary groups, showing a high efficiency of utilization of this amino acid for protein synthesis. The incorporation of ¹⁴C into body protein from ¹⁴C-proline was most increased in the 15 PC% group, and the values were reduced in rats fed with lower and higher PC% diets. The carbon skeleton of ¹⁴C-glutamic acid was extensively oxidized to expired carbon dioxide, and the ¹⁴C incorporation into body protein was markedly less. The pattern of expired ¹⁴C0₂ production from each ¹⁴C-amino acid was in inverse proportion to that of ¹⁴C incorporation into body protein. The results indicate that the metabolic responses of arginine, proline and glutamic acid to dietary protein change at 10 to 15 PC%, where the growth rate reached its approximate maximum.     

Changes in Amino Acid Metabolism in vivo with Time after Feeding

Changes in the metabolism in vivo of amino acids with the lapse of time after feeding a diet were investigated by measuring the incorporation of ¹⁴C into some body components one hour after injection with ¹⁴C-amino acid mixture.

The incorporation of ¹⁴C into protein in the liver and carcass was rather constant, but that into blood sugar, liver glycogen, and lipids in the liver and carcass showed a change with the lapse of time after feeding a 25% casein diet or a protein-free diet. The incorporation of ¹⁴C into liver glycogen was stimulated shortly after feeding, but it was reduced at 7 hr, when a large amount of glycogen was still in the liver. On the contrary, the specific activity of blood sugar increased with the lapse of time after feeding. The conversion of ¹⁴C-amino acids into lipids in the liver and carcass was stimulated shortly after feeding.

The incorporation of ¹⁴C into protein was higher in the rats fed the protein-free diet than in those fed the 25% casein diet, and the higher incorporation was partly counterbalanced by the lower incorporation of ¹⁴C into lipids and glycogen in the rats fed the protein-free diet.     

Hypervitaminosis A and Liver Phospholipids

Effect of daily oral feeding of 33 mg retinol for nine days on the liver phospholipids of rats has been studied. As early as two days after feeding retinol an increase in the amounts of liver triglycerides, proteins, phospholipids, and cholesterol was noted which kept increasing and reached the peak concentration 6 days after daily retinol feeding and thereafter a decrease in their amounts was noted. Hepatic phospholipid fractions viz. phosphatidyl choline, phosphatidyl ethanolamine, phosphatidic acid and polyglycerol phosphatide, phosphatidyl inositol, phosphatidyl serine, sphingomyelin, lysophosphatidyl ethanolamine and lysophos- phatidyl choline showed the same pattern. Labelling of these phospholipids with NaH₂³²PO₄ in rats fed daily 33 mg of retinol for a period of two days also exhibited the pattern which was observed in their amounts two days after daily feeding of retinol. The results suggest a close relationship between the metabolism of hepatic triglycerides and phospholipids of rats fed excessive amounts of retinol.     

THE METABOLISM OF LEUCINE BY DEVELOPING RAT BRAIN: EFFECT OF LEUCINE AND 2-OXO-4-METHYLVALERATE ON LIPID SYNTHESIS FROM GLUCOSE AND KETONE BODIES

Abstract— The oxidation of l -[U-¹⁴C]leucine and l -[l-¹⁴C]leucine at varying concentrations from 0.1 to 5mM to CO₂ and the incorporation into cerebral lipids and proteins by brain slices from 1-week old rats were markedly stimulated by glucose. Although the addition of S mM-dl -3-hydroxybutyrate had no effect on the metabolism of [U-¹⁴C]leucine by brain slices from suckling rats, the stimulatory effects of glucose on the metabolism of l -[U-¹⁴C]leucine were markedly reduced in the presence of dl -3-hydroxybutyrate. The stimulatory effect of glucose on leucine oxidation was, however, not observed in adult rat brain. Furthermore, the incorporation of leucine-carbon into cerebral lipids and proteins was also very low in the adult brain. The incorporation of l -[U-¹⁴C]leucine into cerebral lipids by cortex slices was higher during the first 2 postnatal weeks, which then declined to the adult level. During this time span, the oxidation of l -[U-¹⁴C]leucine to CO₂ remained relatively unchanged. The incorporation in vivo of D-3-hydroxy[3-¹⁴C]butyrate into cerebral lipids was markedly decreased by acute hyperleucinemia induced by injecting leucine into 9-day old rats. In in vitro experiments, 5 mM-leucine had no effect on the oxidation of [U-¹⁴C]glucose to CO₂ or its incorporation into lipids by brain slices from 1-week old rats. However, 5 mM-leucine inhibited the oxidation of d -3-hydroxy-[3-¹⁴C]butyrate, [3-¹⁴C]acetoacetate and [1-¹⁴C]acetate to CO₂ by brain slices, but their incorporation into cerebral lipids was not affected by leucine. In contrast 2-oxo-4-methylvalerate, a deaminated metabolite of leucine, markedly inhibited both the oxidation to CO₂ and the incorporation into lipids of labelled glucose, ketone bodies and acetate by cortex slices from 1-week old rats. These findings suggest that the reduction in the incorporation in vivo of d -3-hydroxy[3-¹⁴C]butyrate into cerebral lipids in rats injected with leucine is most likely caused by 2-oxo-4-methylvalerate formed from leucine. Since the concentrations of leucine and 2-oxo-4-methylvalerate in plasma of untreated patients with maple-syrup urine disease are markedly elevated, our findings are compatible with the possibility that an alteration in the metabolism of glucose and ketone bodies in the brain may contribute to the pathophysiology of this disease.     

DIFFERENTIAL DISTRIBUTION OF [U-14C]GLUCOSE AND [U-14C]GLYCEROL AMONG MOLECULAR SPECIES OF PHOSPHATIDYL CHOLINE,PHOSPHATIDYL ETHANOLAMINE AND 1,2-DIACYLGLYCEROL IN RABBIT BRAIN12

Specific radioactivities of molecular species of phosphatidyl choline(PC), phosphatidyl ethanolamine(PE) and 1,2-diacylglycerol were determined in rabbit brain 15 and 30 min after intraventricular injection of 10OpCi of either [U-¹⁴C]glucose or [U-¹⁴C]glycerol. The rate of de nouo synthesis of glycerophospholipids and their molecular species could be determined after glycerol labelling, since 94.0–99.7% of ¹⁴C activity was recovered in glyceryl moieties of brain lipids. After injection of glucose radioactivity was measured in both glyccrol and acyl residues of lipids. High incorporation rates were measured in species of PC, PE and 1,2-diacylglycerol with oleic acid in position 2 and with palmitic, stearic or oleic acids in position 1. The conclusion may therefore be drawn that these molecular species were preferably synthesized de novo by selective acylation of glycerol 3-phosphate. The lowest specific activities were observed for 1,2-dipalmitoyl- and l-stearoyl-2- arachidonoyl-glycerol, -PC and -PE. These turnover rates point to incorporation of arachidonate, and probably also of palmitate in dipalmitoyl-PC, amounting to 20% of total PC, via deacylation-acylation- cycle.     

In vivo incorporation of l-[14C]serine into phospholipids and proteins of the subcellular fractions of developing rat brain

A study was conducted on the in vivo incorporation of l -[¹⁴C]-serine into the lipids and proteins of the various subcellular fractions of the developing rat brain before and during the stage of active myelination. The total radioactivity in the various fractions at 12 days of age was higher than that at 3 days, while the radioactive specific activity was reversed. The specific activities of the proteins and lipids were higher at 3 days of age with the exception of the subcellular fraction containing myelin. At both ages the lipids of the various cellular fractions had similar specific activities, a finding that suggests a common source for lipid biosynthesis. Incorporation of radioactivity into the various phospholipids was in the following order: phosphatidyl serine > phosphatidyl ethanolamine > phosphatidal serine > sphingomyelin and phosphatidyl choline. Of all the phospholipids, the plasmalogens increased most in total radioactivity during the period when meylination was most active. Serine-containing phospholipids appear to be most tightly bound to proteins. The brain mitochrondrial fraction contained most of the phosphatidyl serine decarboxylase activity with some activity in the nuclei. Biosynthesis of phosphatdyil ethanolamine through decarboxylation of phosphatidyl serine could take place in rat brain. Four unidentified radioactive metabolites were found in the acid-soluble fraction in addition to l -[¹⁴C]serine.     

Protein deficiency and age related alterations in rat peritoneal macrophage lipids

The effects of dietary protein restriction and age on the thioglycollate elicited peritoneal macrophage lipid constituents were studied. Impact of subtle changes in lipid components on macrophage functions have been assessed. Lipid profiles of macrophages recovered from rats fed 20 and 4% protein diets and stock diet fed rats (0 and 3 wk) were comparable qualitatively. Quantitative analysis however revealed significant decrease in phospholipids (30–40%) and consequent elevation of cholesterol/phospholipid molar ratios in the protein depleted and young rats (0 wk), compared to the protein fed groups. The protein deficient and the young rats also exhibited accumulation of certain neutral lipids and reduction in triglycerides. Analysis of fatty acid methyl esters of macrophage phospholipids revealed the predominance of long chain polyunsaturated fatty acids even when oleic (C_18:1) and linoleic (C_18:2) formed the bulk of unsaturated fatty acids in the diet. However, the long chain poly unsaturated fatty acid content, particularly the docosahexaenoic acid (C_22:6n-3) was greatly reduced in the protein depleted and 0 wk rats. Observed changes in the long chain polyunsaturated fatty acids of macrophage phospholipids may be of physiological significance as they modulate the immunological functions of the cell.     

Metabolism of Leucine and Alanine in Growing Rats Fed the Diets with Various Protein to Energy Ratios

In order to clarify the nutritional significance of metabolism of the carbon skeleton of individual amino acids, the metabolic fates of l-leucine-U-¹⁴C and l-alanine-U-¹⁴C were investigated in growing rats fed the diets with various protein calories percents (PC%) at 410 kcal of metabolizable energy.

The incorporation of ¹⁴C into body protein in 12 hr after the injection of leucine-¹⁴C was about 73% of the dose in the 0 and 5 PC% groups, though it decreased with increasing the levels of dietary protein from 10 to 30 PC%. The value of ¹⁴C recovery in body protein almost agreed with the net protein utilization (NPU) determined for the whole egg protein in a similar experimental condition. The ¹⁴C recovery in expired CO₂ and body lipid suggested that the carbon skeleton of leucine is well utilized as an energy source when the dietary carbohydrate is extensively replaced by protein.

While, the incorporation of ¹⁴C into body protein from alanine-¹⁴C was less than about 11% of the dose in all the dietary groups, and the majority of ¹⁴C was recovered in expired CO₂ and body lipid in a remarked contrast to leucine.

A similar pattern in urinary excretion of ¹⁴C was obtained for these amino acids, and the refracted rise of ¹⁴C from 10 PC% may give an indication for minimum protein requirements.