Effect of Starvation,Refeeding and Hydrocortisone Administration on Turnover of Myofibrillar Proteins Estimated by Urinary Excretion of Nτ-Methylhistidine in the Rat

Quantitative changes in fractional catabolic and synthetic rates of the myosin-actin pool in rat muscle under starvation and refeeding, during growth or after treatment with hydrocortisone were studied by estimating urinary excretion of N^τ-methylhistidine (3-methyl- histidine; Me-His).

Following deprivation of food, urinary Me-His output increased from 0.35 mg/day to 0.45 mg/day during first 2 day in spite of decreasing body Me-His pool. This high rate of Me-His excretion was maintained for the following 4 days of starvation and then decreased. When rats were refed a 20% casein diet after 10 days of starvation, Me-His excretion continued to decrease even after 3 days of refeeding. On the fifth day of refeeding, it began to rise progressively. During starvation, fractional catabolic rate of myosin-actin was about 3.7 %/day in comparison with 2.6 %/day of fed rats. After refeeding, the fractional catabolic rate decreased rapidly to a minimum value of 1.7 %/day on the third day. After that, it reached to a value of 2.6 %/day of fed rats. On the other hand, fractional synthetic rate of myosin-actin dropped immediately after fasting and the low rate of about 0.4 %/day was maintained during starvation period. Fractional synthetic rate recovered quickly after refeeding.

Urinary output of nitrogen and creatinine rose quickly on the first day after administration of hydrocortisone and on the second day it fell to their normal value. While Me-His excretion increased after injection of hydrocortisone up to 0.52 mg/day on the second day and this high excretion rate remained until the following day. From these results, it was shown that administration of hydrocortisone to rats enhances catabolism and reduces synthesis of myosin-actin. The results also show that the effect of this hormone on myofibrillar protein catabolism appears to last longer than its effect on nitrogen metabolism in the whole body judged from urinary nitrogen output.

Fractional rates of catabolism and synthesis of rat myosin-actin were 3.3 %/day (half- life of 21 days) and 7.2%/day, respectively, at the growth stage of 129 g body weight. These rates were 2.3 %/day (half-life of 30 days) and 2.8 %/day, respectively, at the mature stage of 363 g body weight.

Under the dietary conditions in this experiment, fractional synthetic rate changed far more dramatically than catabolic rate. This suggests that mass of muscle protein is primarily regulated by the rate of synthesis, although the rate of catabolism should not be neglected.     

Quantitative Significance of Plasma Albumin Metabolism in the Whole Body Protein Turnover in Rats

The amount of extra- and intravascular albumin was estimated in two groups of rats, i.e., those fed a 20% casein (20% protein) diet and a 3% casein (low protein or 3% protein) diet.

The fractional turnover rate of whole body plasma albumin was also measured in the two groups of rats, employing the constant infusion method of Waterlow et al. At the same time, the fractional turnover rate of the whole body protein was measured.

When the diet was changed from the 20% protein to the 3% protein diet, the amount of albumin mass in both extra- and intravascular spaces decreased significantly. During 7 days on the diet, the extra- and intravascular albumin mass per 100 g of body weight did not change significantly in the rats fed the 20% protein diet. On the other hand, rats fed the 3% protein diet lost almost 30% of the extra- and intravascular albumin per lOOg body weight.

The fractional turnover rates of whole body albumin were estimated to be 31.7 and 19.8%/day in the 20% protein and the 3% protein diet-fed rats, respectively. The fractional turnover rates of whole body protein were 16.1 and 10.6%/day in the 20% protein and the 3% protein diet-fed rats, respectively.

The leucine fluxes to albumin synthesis and whole body protein synthesis were calculated to be 5.9 and 83 μmol/hr, respectively, in the 20% protein diet-fed rats. The leucine fluxes in the 3% protein diet-fed rats were 2.5 and 54μmol/hr for the albumin synthesis and for the whole body protein synthesis, respectively.

These results demonstrate the quantitative significance of albumin metabolism in the whole body protein turnover in rats fed on two levels of protein intake.     

Nutritional Evaluation of Dietary Proteins with Regard to Body Protein Metabolism in Adult Rats Using Purified Whole Egg Protein as a Standard Reference

A new method for the preparation of whole egg protein was presented and its qualification as a standard reference for evaluating dietary protein was made in the course of this experiment: e.g., Purity, 96.5% and Biological value, 99.9. The amino acid composition was almost identical with that shown in the table of FAO (1970).

Using this whole egg protein, casein and yeast, the nutritive values of dietary proteins in the adult rats at the normal level of body protein and in those after 8 day’s protein depletion were compared. It was found that the evaluation after protein depletion had a tendency to overestimate the nutritive value of proteins rather making the difference little between each other. The significance of the relative evaluation by use of the purified whole egg protein was discussed with special regard to the actual retention of body nitrogen, i.e., the net nitrogen retention.     

Arginine Depletion by Arginine Deiminase Does Not Affect Whole Protein Metabolism or Muscle Fractional Protein Synthesis Rate in Mice

Due to the absolute need for arginine that certain cancer cells have, arginine depletion is a therapy in clinical trials to treat several types of cancers. Arginine is an amino acids utilized not only as a precursor for other important molecules, but also for protein synthesis. Because arginine depletion can potentially exacerbate the progressive loss of body weight, and especially lean body mass, in cancer patients we determined the effect of arginine depletion by pegylated arginine deiminase (ADI-PEG 20) on whole body protein synthesis and fractional protein synthesis rate in multiple tissues of mice. ADI-PEG 20 successfully depleted circulating arginine (<1 μmol/L), and increased citrulline concentration more than tenfold. Body weight and body composition, however, were not affected by ADI-PEG 20. Despite the depletion of arginine, whole body protein synthesis and breakdown were maintained in the ADI-PEG 20 treated mice. The fractional protein synthesis rate of muscle was also not affected by arginine depletion. Most tissues (liver, kidney, spleen, heart, lungs, stomach, small and large intestine, pancreas) were able to maintain their fractional protein synthesis rate; however, the fractional protein synthesis rate of brain, thymus and testicles was reduced due to the ADI-PEG 20 treatment. Furthermore, these results were confirmed by the incorporation of ureido [¹⁴C]citrulline, which indicate the local conversion into arginine, into protein. In conclusion, the intracellular recycling pathway of citrulline is able to provide enough arginine to maintain protein synthesis rate and prevent the loss of lean body mass and body weight.     

Quantitative aspect of the myofibrillar protein turnover in transient state on dietary protein depletion and repletion revealed by urinary excretion of Nτ-Methylhistidine

The fractional rates of synthesis and breakdown of myosin and actin in skeletal muscle of younn adult male rats were measured during 2 weeks of ad libitum feeding of a protein-free diet, and 8 days of refeeding with an adequate protein diet. Daily urinary excretion of N^τ-Methylhistidine (3-methylhistidine) by the N^τ-methylhistidine pool of the body gave the fractional breakdown rate of the myosin-actin pool. The fractional synthesis rate of the myosin-actin pool was calculated from the fractional breakdown rate and the size of N^τ-methylhistidine pool in the body. The feeding of the protein-free diet resulted in a decreased in body weight and a decrease in daily urinary excretion of N^τ-methylhistidine. Refeeding caused an increase in body weight and a progressive increase in daily urinary excretion of N^τ-methylhistidine. At the start of the experiment, the fractional breakdown rate of the myosin-actin pool was 4% per day and with prolonged protein depletion, the rate decreased to 1.25% per day. The fractional synthesis rate also decreased more rapidly than the breakdown rate. On refeeding for one day with an adequate protein diet, the fractional synthesis rate increased from 0.75 to 5.75% per day. Accumulation of skeletal muscle protein by refeeding was accompanied by a difference between the faster rate of synthesis and slower rate of breakdown even though the fractional breakdown rate increased during the rehabilitation period.     

Some Nutritional and Physiological Factors Affecting the Urinary Excretion of Acid Soluble Peptides in Rats and Women

Urinary excretion of acid soluble peptide (ASP)-form amino acids was lower in rats deprived of protein than in rats fed on a 20% casein or 20% gluten diet. However, the amino acid pattern of urinary ASP was similar among each of the three dietary groups, suggesting that urinary ASP is mainly endogenous origin under these nutritional conditions.

College women who were given a meat-free protein diet for 3 days after 10 days’ protein deprivation excreted 1.4 times the amount of ASP-form amino acids during protein deprivation.

The rate of urinary excretion of ASP-form amino acids in the state of protein deprivation was proportional to the metabolic body size of organisms as far as rats and women were concerned.

Streptozotocin-induced diabetic rats excreted two times the amount of ASP-form amino acids compared with normal rats. This suggests that endogenous protein catabolism doubled in diabetic rats.

When labelled urinary ASP was injected into rats, approximately 40% of the label was recovered as urinary ASP within 24 hr. This excretion rate was far higher than that after the injection of free leucine.

The rate of urinary excretion of ASP-form amino acids correlated with that of N^τ-methylhistidine in rats.

These results favor the hypothesis that urinary ASP reflects the catabolism of body proteins.     

Influence of a high protein diet on the urinary and fecal excretion of calcium in albino rats

Albino rats (Sprague-Dawley) of mean weight 100 g were divided into four groups and given for 7 days a balanced diet. They were then placed in metabolic cages for fifteen days and fed diets containing different quantities of casein: 18% (D18), 36% (D36), 50% (D50) and 72% (D72). The levels of total calcium, inorganic phosphorus, alkaline phosphatase activity, total proteins and urea were determined. The urinary and fecal excretion of calcium were determined on specimens of urine and stool collected every two days. The metabolic balance of nitrogen was also estimated. The results show there is not a linear relationship between a high protein diet and plasma protein levels, but a progressive body calcium loss was observed with the increase of casein in the diet, which confirms what other workers have already suggested.     

In vivo apoprotein catabolism of high density lipoproteins in copper-deficient, hypercholesterolemic rats

High density lipoprotein (HDL) apoprotein catabolism was examined in male Sprague-Dawley rats deficient in dietary copper. Twenty-four rats were randomly divided into two groups: copper-adequate (control, 5 mg of copper/kg diet) and copper-deficient (0.6 mg of copper/kg diet). After 5 weeks, animals were administered a tracer dose of iodinated HDL protein previously isolated from donor rats that were subjected to the same dietary treatments as the test animals. Copper-deficient rats exhibited a 54% increase in plasma volume and a 26% increase in HDL protein concentration above controls. Consequently, the intravascular pool of total HDL protein was increased 2-fold. The fractional catabolic rate of total HDL protein was similar between groups. However, because of the increased intravascular HDL pool in copper-deficient animals, the absolute catabolic rate was greater (640 +/- 49 micrograms/hr vs 316 +/- 12 micrograms/hr in controls). Tissue uptake of total HDL protein in copper-deficient rats tended to be greater in the kidneys, spleen, and testes compared with controls; the heart exhibited a significant 2.3-fold increase. In contrast, the catabolic rate of HDL protein in the liver and adrenal gland were not different between treatment groups. That an obligatory increase in HDL protein uptake was not observed in the liver and adrenal gland (organs which are sensitive to and can further metabolize cholesterol) suggests that these organs may be regulated, possibly contributing to the observed hypercholesterolemia in this model. These data imply that total HDL apoprotein catabolism is increased in response to the increased intravascular pool of HDL in copper-deficient rats.     

Measurement of receptor-independent metabolism of low-density lipoprotein. An application of glycosylated low-density lipoprotein

Incubation of human low-density lipoprotein (LDL) with glucose results in a nonenzymatic formation of a Schiff base between the monosaccharide and lysyl residues of apolipoprotein B. Increasing the percentage of lysyl residues of apolipoprotein B modified by glycosylation decreases the fractional catabolic rate of the glycosylated LDL, and decreases the metabolism of the glycosylated LDL by human skin fibroblasts. The glycosylated LDL, containing 20-40% of total lysyl residues of apoprotein B modified, was metabolized at a slow rate by both human skin fibroblasts and mouse peritoneal macrophages. These results led to the suggestion that glycosylated LDL is primarily catabolized via a receptor-independent process. Assuming LDL catabolism occurs via receptor-dependent and receptor-independent processes, the ratio of (fractional catabolic rate of glycosylated LDL)/(fractional catabolic rate of native LDL) should be an estimate of the percentage of LDL catabolism via the receptor-independent process. From the fractional catabolic rates of glucose-LDL (20-40% of lysyl residues modified) and galactose-LDL (30-60% of lysyl residues modified) 41% and 30% respectively, of LDL catabolism occurred by a receptor-independent process.     

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 Collagen and Muscle Protein of Young Rats in Protein Depletion

The effect of protein depletion on the metabolism of body collagen and muscle protein has been investigated in young male rats fed with a protein-free diet for 14 and 28 days.

During the protein depletion, the protein content of the liver, intestine and skin decreased significantly, but the decrease of proteins was very little in the carcass, tail and bone (ossa cruris). An increase of tissue collagen in protein depletion was found in the carcass, bone, tail, skin and liver, while muscle protein in the carcass was evidently lost at a later stage of protein depletion. The increase of calcium in the bone was parallel to the increase of collagen, indicating continuous growth of the bones in spite of protein depletion. These results may indicate that the young animals continuously synthesize collagens of their special tissues from other tissue proteins even with severe protein deficiency. The metabolic responses of body collagens to dietary protein depletion in young rats have been discussed and compared with those in adult rats reported previously.     

Albumin catabolism in diabetic rats

The kinetics of albumin catabolism were studied in normal rats and rats with streptozotocin induced diabetes (blood glucose greater than 500 mg%). Whether determined from the clearance of 125I-albumin from plasma or from the whole body, after 10 days of severe, uncontrolled diabetes there was a 30-35% decrease in the catabolic rate for albumin in the diabetic rats compared to normals. There was also about a 35% contraction of the relative extravascular distribution volume for albumin in the diabetic rats, and about a 25% decrease in the total body mass of albumin. However, the concentration of albumin in the circulation was the same in normal and diabetic animals. We conclude that when the rate of albumin synthesis is substantially depressed in diabetes, the rat maintains normal plasma albumin concentration both by decreasing albumin's fractional catabolic rate and by shifting albumin from the extravascular to the vascular compartment.     

不同蛋白质水平的饵料对黄喉拟水龟生长影响的研究

依据单因子梯度设计原理,采用进口鱼粉、豆粕为主要蛋白源制成蛋白质含量分别为50.2%、47.3%、44.3%和41.4%共4种试验饵料,研究不同蛋白质水平饵料对黄喉拟水龟生长的影响.结果 表明,经过120 d对80只黄喉拟水龟幼龟的饲养,当饵料的蛋白质含量为47.3%时,黄喉拟水龟的生长速度最快,均显著高于其他3个组(P<0.05);蛋白质效率最高,极显著高于50.2%组(P<0.01),也分别显著高于44.3%组和41.4%组(P<0.05);耗料增重比最低,分别极显著低于44.3%组和50.2%组(P<0.01),也显著低于41.4%组(P<0.05).但不同蛋白质水平的饵料对黄喉拟水龟龟体蛋白质含量没有明显的影响(P>0.05).     

Clinical usefulness of urinary 3-methylhistidine excretion in indicating muscle protein breakdown.

Urinary excretion of the post-translationally modified amino-acid 3-methylhistidine, derived from the contractile proteins actin and myosin, was measured in patients with conditions associated with nitrogen loss. The ratio of 3-methylhistidine:creatinine excretion, a measure of the fractional catabolic rate of myofibrillar protein was increased in severe injury, thyrotoxicosis, neoplastic disease, prednisolone administration, and sometimes Duchenne muscular dystrophy. In myxoedema, osteomalacia, and hypothermia the ratio was decreased; and starvation, elective operations, and rheumatoid arthritis had little effect. Provided that the diet is meat free, measurement of urinary 3-methylhistidine may provide useful information on the cause of protein loss.     

Protein requirements of subadult nilgai antelope

1. The maintenance crude protein (CP) requirements of subadult nilgai antelope (Boselaphus tragocamelus) were determined by nitrogen balance. Four isocaloric pelleted diets, ranging from 8.4 to 23.8% CP, were fed. 2. Subadults maintained a positive nitrogen balance on all diets. Linear regression showed that 95.8% of diet CP was truly digested and estimated metabolic fecal nitrogen (NFN) excretion at 0.388 gN/W0.75/day. 3. Estimates for endogenous urinary nitrogen excretion and maintenance nitrogen requirement, derived through linear regression, were erroneous. Consequently, the former was calculated based on metabolic size (0.126 gN/W0.75/day) and added to MFN to obtain an 0.514 gN/W0.75/day estimate of required nitrogen for maintenance. This value is between the levels recommended for maintenance of yearling deer and cattle. 4. Given the same level of dry matter intake (68.6 g/W0.75/day) and true CP digestibility, study animals would be able to meet N equilibrium on a 4.89% CP (dry matter basis) diet. 5. Based on data from other sources, natural diets containing 6.98% CP would need to be consumed by free-ranging subadults to maintain body weight.     

Protein anabolic effects of insulin and IGF-I in the ovine fetus

We determined the effect of insulin and/or recombinant human (rh)IGF-I infusion on ovine fetal phenylalanine kinetics, protein synthesis, and phenylalanine accretion. The chronically catheterized fetal lamb model was used at 130 days gestation. All studies were performed while fetal glucose and amino acid concentrations were held constant. Experimental infusates were 1). saline, 2). rhIGF-I plus a replacement dose of insulin (40 nmol), 3). insulin (890 mIU/h), and 4). IGF-I plus insulin (40 nmol IGF-I/h and 890 mIU insulin/h). Both hormones increased glucose and amino acid utilization, with insulin having a greater effect. The major effect on phenylalanine kinetics was a pronounced fall in phenylalanine hydroxylation, again with insulin having the greatest effect. Whole body protein breakdown was not significantly altered by either hormone; whole body protein synthesis was significantly increased during the combined infusion. Protein accretion was increased by both hormones, with the greatest increase during combined infusion. The fractional synthetic rate (FSR) of circulating albumin was increased by IGF-I but not by insulin. Both hormones significantly increased skeletal muscle FSR without a synergistic effect. The anabolic effects of insulin and IGF-I were more pronounced in these studies than in previous studies where amino acid concentrations were not maintained. The present data also suggest that insulin and IGF-I promote fetal growth through distinct, organ-specific mechanisms.     

Liver X receptor activation promotes macrophage-to-feces reverse cholesterol transport in a dyslipidemic hamster model

Liver X receptor (LXR) activation promotes reverse cholesterol transport (RCT) in rodents but has major side effects (increased triglycerides and LDL-cholesterol levels) in species expressing cholesteryl ester transfer protein (CETP). In the face of dyslipidemia, it remains unclear whether LXR activation stimulates RCT in CETP species. We therefore used a hamster model made dyslipidemic with a 0.3% cholesterol diet and treated with vehicle or LXR agonist GW3965 (30 mg/kg bid) over 10 days. To investigate RCT, radiolabeled ³H-cholesterol macrophages or ³H-cholesteryl oleate-HDL were then injected to measure plasma and feces radioactivity over 72 or 48 h, respectively. The cholesterol-enriched diet increased VLDL-triglycerides and total cholesterol levels in all lipoprotein fractions and strongly increased liver lipids. Overall, GW3965 failed to improve both dyslipidemia and liver steatosis. However, after ³H-cholesterol labeled macrophage injection, GW3965 treatment significantly increased the ³H-tracer appearance by 30% in plasma over 72 h, while fecal ³H-cholesterol excretion increased by 156% (P < 0.001). After ³H-cholesteryl oleate-HDL injection, GW3965 increased HDL-derived cholesterol fecal excretion by 64% (P < 0.01 vs. vehicle), while plasma fractional catabolic rate remained unchanged. Despite no beneficial effect on dyslipidemia, LXR activation promotes macrophage-to-feces RCT in dyslipidemic hamsters. These results emphasize the use of species with a more human-like lipoprotein metabolism for drug profiling.     

Uromodulin Exclusion List Improves Urinary Exosomal Protein Identification

Advances in mass spectrometry (MS) have encouraged interest in its deployment in urine biomarker studies, but success has been limited. Urine exosomes have been proposed as an ideal source of biomarkers for renal disease. However, the abundant urinary protein, uromodulin, cofractionates with exosomes during isolation and represents a practical contaminant that limits MS sensitivity. Uromodulin depletion has been attempted but is labor- and time-intensive and may remove important protein biomarkers. We describe the application of an exclusion list (ExL) of uromodulin-related peptide ions, coupled with high-sensitivity mass spectrometric analysis, to increase the depth of coverage of the urinary exosomal proteome. Urine exosomal protein samples from healthy volunteers were subjected to tandem MS and abundant uromodulin peptides identified. Samples were run for a second time, while excluding these uromodulin peptides from fragmentation to allow identification of peptides from lower-abundance proteins. Uromodulin exclusion was performed in addition to dynamic exclusion. Results from these two procedures revealed 222 distinct proteins from conventional analysis, compared with 254 proteins after uromodulin exclusion, of which 188 were common to both methods. By unmasking a previously unidentified protein set, adding the ExL increased overall protein identifications by 29.7% to a total of 288 proteins. A fixed ExL, used in combination with conventional methods, effectively increases the depth of urinary exosomal proteins identified by MS, reducing the need for uromodulin depletion.     

Effects of restrictions in dietary protein and vitamin A on the responses of rats to infections by Nippostrongylus brasiliensis (Nematoda) and N. brasiliensis plus Eimeria nieschulzi (Coccidia)

The effects of adequate and restricted dietary protein and vitamin A on responses to infections by Nippostrongylus brasiliensis and N. brasiliensis plus Eimeria nieshulzi were determined in growing Sprague-Dawley rats. Infected rats experienced anorexia followed by a rebound in consumption that compensated for weight losses during anorexia. On certain days, reductions in the urinary/fecal nitrogen ratio, fecal and absorbed nitrogen, and apparent nitrogen and dry matter digestibilities occurred with the combined infections but not with those by nematodes alone. Effects of different levels of vitamin A were expressed only as an increase in nitrogen absorption occurring during the post-anoretic increase in appetite found with infected rats and in rats restricted in protein but receiving the higher level of the vitamin. Protein level was the most significant treatment effect: rats on high protein performed significantly better than those on low, regardless of the level of the other experimental variables.     

Nitrogen balance discrepancy in Wistar rats fed a cafeteria diet.

The nitrogen balance of Wistar rats aged 30-45 and 45-60 days fed either control or cafeteria diet has been determined by measuring the intake fecal and urinary excretion and nitrogen deposition in the body. The efficiency of extraction of dietary nitrogen was higher for cafeteria diet-fed rats, which showed a lower nitrogen excretion and higher body nitrogen accretion than controls. The accurate measurement of nitrogen intake, excretion and deposition showed a consistent proportion of nitrogen unaccounted for (10-26% of net intake) in the studied fractions, which proportion was higher in the youngest cafeteria diet-fed rats.