UMLS:C0038187 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment of isolated myofibrils with an ATP-containing relaxing solution results in the dissociation of a preformed quantity of myofilaments called 'easily releasable myofilaments'. Van der Westhuyzen, Matsumoto & Etlinger [(1981) J. Biol. Chem. 256, 11791-11797] presented experimental evidence that these myofilaments represent intermediate products in the turnover of myofibrillar proteins. To investigate further this question, we measured the size of the fraction of easily releasable myofilaments in three different species of skeletal muscles from rats subjected to well-defined catabolic conditions, namely starvation or chronic glucocorticoid administration. The results were as follows: (1) The amount of easily releasable myofilaments was transiently increased about 2-3-fold during both experiments, and thus paralleled the known alterations in the rate of overall muscle protein breakdown rather than in those of synthesis. (2) These changes were observed in muscles containing predominantly fast-twitch fibres, but not in slow-twitch soleus muscle, a muscle that is known to be more resistant to catabolic conditions. (3) The starvation-induced increase of the size of the fraction of easily releasable myofilaments could be significantly reduced by treatment of the starving animals with the proteinase inhibitor E-64. These results are compatible with the idea that easily releasable myofilaments are intermediates in the degradative pathway of myofibrillar proteins and that a proteolytic step may be involved in the conversion of myofilaments into easily releasable myofilaments.
...
PMID:Effect of starvation or treatment with corticosterone on the amount of easily releasable myofilaments in rat skeletal muscles. 371 90

It has been suggested that adaptation to starvation may be impaired in patients with malignant disease and that this may contribute to the development of cancer cachexia. We have investigated this by comparing the body composition, as well as the tissue composition of weight loss, of a group of 49 patients with gastrointestinal carcinomas and 91 patients with benign gastrointestinal disease all of whom had sustained a weight loss greater than 10% of their recalled pre-illness weight. Total body protein was calculated from total body nitrogen measured by in vivo neutron activation analysis which also provided absolute values of sodium, chlorine, phosphorus, and calcium. The masses of muscle and nonmuscle protein were estimated using a validated compartmental analysis. Total body fat was derived using anthropometry. Total body water was estimated from the difference between body weight and the sum of body protein, fat, and minerals. The loss of body weight incurred by patients with both benign and malignant disease was primarily muscle mass and body fat. Both groups of patients retained nonmuscle protein. All patients manifested, with increasing weight loss, a progressive loss of muscle protein, fat, and water, which must represent the tissue composition of weight loss. No significant differences between patients with benign or malignant disease were demonstrated for any of the body composition parameters measured. The results of this study do not support the hypothesis that adaptation to starvation in patients with cancer is in anyway different from that which occurs in patients with benign disease.
...
PMID:Body composition in malignant disease. 382 8

Infusion of glucagon (0.5 mg/h per 100 g body wt.) into fed rats for 6 h inhibited protein synthesis in skeletal muscle, but not in heart. The order of sensitivity of three muscles was plantaris greater than gastrocnemius greater than soleus. Treatment with glucagon for periods of 1 h or less had no effect. Liver protein synthesis was inhibited by glucagon treatment for 10 min, but stimulated after 6 h. The effect of glucagon on muscle was not secondary to impaired food absorption or to depletion of amino acids by increased gluconeogenesis, since the inhibition of protein synthesis was observed in postabsorptive and amino acid-infused rats. The failure of glucagon to inhibit muscle protein synthesis after 1 h may have been caused by the increase in plasma insulin that occurred at this time, since an inhibition was detected in insulin-treated diabetic rats. The lowest infusion rate that gave a significant decrease in muscle protein synthesis was 6 micrograms/h per 100 g body wt., despite a small increase in plasma insulin. This gave plasma glucagon concentrations in the high pathophysiological range, suggesting that glucagon may be significant in the pathogenesis of muscle wasting in metabolic stresses such as diabetes and starvation.
...
PMID:The effect of glucagon administration on protein synthesis in skeletal muscles, heart and liver in vivo. 389 31

1. The rate of protein synthesis in rat tissues was measured by constant intravenous infusion of [(14)C]tyrosine. A modification has been developed for the method of calculating the rate of protein synthesis in individual tissues from the specific radioactivity of the free and protein-bound amino acid in tissue at the end of the infusion. This technique gives greater accuracy and allows a greater choice of labelled amino acids. The specific radioactivity of free tyrosine in plasma was used to calculate the plasma tyrosine flux, an index of the rate of protein synthesis in the whole body. 2. Young male Wistar rats were allowed access to food for only 4h in every 24h. The tyrosine flux and the rate of protein synthesis in liver and muscle at different periods of time after a single feed were estimated. 3. The tyrosine flux did not alter after feeding nor even after starvation for 48h. 4. The average fractional rate of protein synthesis in muscle was 7.2%/day, i.e. the proportion of the protein mass which is replaced each day. The rate rose after eating and declined during starvation for 48h. In addition the rate of muscle protein synthesis correlated with the growth rate of the rat. 5. In liver the average fractional rate of protein synthesis was 50%/day. There was no change in the rate after eating nor after starvation for 48h. In contrast with muscle this suggests that the changes in protein mass were accompanied by changes in the rate of protein breakdown rather than synthesis.
...
PMID:The diurnal response of muscle and liver protein synthesis in vivo in meal-fed rats. 478 39

1. The influence of hydrocortisone, insulin and diet on the size distribution of ribosomes in a post-mitochondrial supernatant prepared from rat skeletal muscle was studied by sedimentation analysis with a linear 15-40% (w/v) sucrose gradient. 2. Within 4hr. after the injection of 5mg. of hydrocortisone to well-nourished rats, a decrease in the yield per g. of muscle and proportion of total RNA due to polyribosomes was observed. Similar results were obtained in rats given a protein-free diet for 3 days before administration of the hormone. 3. Insulin injection increased the yield and proportion of polyribosomes within 2hr. and decreased the proportion of the lighter ribosomal aggregates. Similar results were noted in rats given a protein-free diet for 3 days before injection. A protein-free diet given for 3 days decreased the yield and proportion of polyribosomes. Insulin did not increase the yield of polyribosomes if rats were starved for 52hr. before injection, but decreased the yield and proportion of the lighter ribosome species. 4. A 52hr. period of starvation or 2,4-dinitrophenol (15mg./kg. body wt.) given 1hr. before the rats were killed resulted in a decreased yield and proportion of polyribosomes, and, within 6hr. of re-feeding the rats with protein-free diets, an increased concentration of polyribosomes was noted. 5. The effects of a protein-free diet, hydrocortisone and insulin on the sedimentation of muscle ribosomes were found to be in accord with their net effects on muscle protein synthesis.
...
PMID:The sedimentation of rat skeletal-muscle ribosomes. Effect of hydrocortisone, insulin and diet. 563 71

1. The activity of acetyl-CoA carboxylase (EC 6.4.1.2) in extracts of freeze-clamped liver samples from fed or 24 h-starved virgin, pregnant, lactating and weaned rats was measured (i) immediately after preparation of extracts (;I activity'), (ii) after incubation of extracts with partially purified preparations of either rabbit muscle protein phosphatase 1 [Antoniw, Nimmo, Yeaman & Cohen (1977) Biochem. J.162, 423-433] or rabbit liver phosphatase [Brandt, Capulong & Lee (1975) J. Biol. Chem.250, 8038-8044] (;A activity') and (iii) after incubation with 20mm-potassium citrate before or after incubation with phosphatases (;C activity'). 2. Incubation of liver extracts at 30 degrees C without any additions resulted in activation of acetyl-CoA carboxylase that was shown to be due to dephosphorylation of the enzyme by endogenous protein phosphatase activity. This latter activity was not stimulated by Ca(2+) and/or Mg(2+) but was stimulated by 1 mm-Mn(2+). Incubation of extracts with either of the partially purified phosphatases (0.2-0.5 unit) resulted in faster dephosphorylation and activation. The activity achieved after incubation with either of the exogenously added phosphatases was similar. 3. The A and C activities increased during late pregnancy, were lower than in the virgin rat liver during early lactation and increased by 2-fold in liver of mid-lactating rats. Weaning of mid-lactating rats for 24 h resulted in no change in A and C activities but after 48 h weaning they were significantly lower than those in livers from suckled mothers. 4. The I activity followed a similar pattern of changes as the A and C activities during pregnancy and lactation such that, although the I/A and I/C activity ratios tended to be lower during late pregnancy and early lactation, there were no significant changes in I/A and I/C ratios between lactating and virgin animals. However, these ratios were significantly higher in liver from fed 24 h-weaned animals. 5. Starvation (24 h) resulted in a marked decrease in I activity for all animals studied except early-lactating rats. This was due to a combination of a decrease in the concentration of acetyl-CoA carboxylase in liver of starved animals (A and C activities) and a decrease in the fraction of the enzyme in the active form (lower I/C and I/A ratios). The relative importance of the two forms of regulation in mediating the starvation-induced fall in I activity was about equal in livers of virgin, pregnant and lactating animals. However, the decrease in I/A and I/C ratios was of dominating importance in livers of weaned animals. The A/C activity ratios were the same for livers from all animals studied. 6. The maximal activity of fatty acid synthase was also measured in livers and was highly and positively correlated with the A and C activities of acetyl-CoA carboxylase, suggesting that the concentrations of the two enzymes in the liver were controlled coordinately. 7. It is suggested that the lack of correlation between plasma insulin levels and rates of lipogenesis in the transition from the virgin to the lactating state may be explained by different effects of insulin and prolactin on the concentration of acetyl-CoA carboxylase in the liver and on the fraction of the enzyme in the active form.
...
PMID:Changes in the proportion of acetyl-CoA carboxylase in the active form in rat liver. Effect of starvation, lactation and weaning. 612 71

Evidence for muscle protein wasting and abnormal muscle metabolism is common in uremia. Muscle DNA content is considered a reliable reference standard in normal and undernourished adults. Muscle RNA content rapidly changes during starvation and refeeding. The ratio of noncollagen alkali-soluble proteins (ASP) to DNA is considered to be an estimate of the cytoplasmic volume of a single cell, and the RNA: DNA ratio is an index of the ribosomal capacity for protein synthesis. Muscle DNA, RNA, ASP, water, and fat content were determined in muscle biopsy specimens from chronically uremic patients receiving conservative treatment (CT), maintenance hemodialysis (two centers), or CAPD. Nutrient intake was low and the anthropometric indices were decreased in all groups of patients, except in the hemodialysis patients from one center. Serum proteins and muscle ASP: DNA and RNA: DNA ratios were decreased. The nutritional status was reassessed in some malnourished CAPD patients after about one year of careful nutritional advice and was unchanged. These results suggest that chronically uremic patients on CT are often malnourished, primarily because of an inadequate protein and/or energy intake. Muscle nucleic acid and protein content are useful tools for nutritional assessment at a cellular level in humans with chronic renal failure and can be used to monitor the response to nutritional therapy.
...
PMID:Muscle biopsy studies in chronically uremic patients: evidence for malnutrition. 620

Total protein and actomyosin degradation rates were determined in perfused rat hemicorpus preparations. By simultaneously measuring the release of two nonmetabolizable amino acids phenylalanine and N tau-methylhistidine from the hemicorpus, the respective rates of total protein and actomyosin degradation could be calculated. When rats were deprived of food for 48 h, the rate of total protein degradation increased to 148% of the fed controls. If rats were food deprived and then refed for 24 h, the degradation rate decreased to only 79% of the rate of fed controls. Measurement of N tau-methylhistidine release indicated that food deprivation led to a dramatic increase in the rate of actomyosin degradation (427% of fed), whereas refeeding decreased the actomyosin degradation rate to that of the fed controls. Calculations of the fractional degradation rates show that actomyosin breaks down at a much slower rate than the nonactomyosin proteins (1.5 vs. 20.8%/day in preparations from fed rats, and 6.2 vs. 28.2%/day in preparations from food-deprived rats). Therefore, the contribution of actomyosin breakdown to total muscle protein breakdown is small in the fed state (11%) and increased threefold after food deprivation. The addition of insulin to the perfusion medium decreased the rate of total protein degradation by 18% in preparations from food-deprived rats with no significant effect on actomyosin degradation. Thus, in vitro, insulin's major effect may be to decrease the degradation of more rapidly turning over, nonactomyosin proteins. Protein degradation, as well as protein synthesis, contributes to the adaptation of muscle to starvation and refeeding.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Effects of food deprivation and refeeding on total protein and actomyosin degradation. 636 31

The severely burned patient responds differently to starvation ketosis in the early stage of injury as compared to the normal individual. A similar response has been observed in the patient after skeletal trauma and sepsis. In order to determine the extent of muscle protein contribution and the mechanism(s) involved, 11 burn patients with 35% to 80% BSA burn were resuscitated using carbohydrate-free solutions for 3 days followed by unrestricted intake. Blood was drawn daily and 24-hour urinary nitrogens were determined. Controls consisted of 10 preoperative elective surgical patients and two normal volunteers. The burned patients lost a mean +/- SEM of 17.1 +/- 1.72 g nitrogen per day on the third day. The mean +/- SEM ketone body response on the third day for burned patients was 385 +/- 77 mumol/l compared to 727 +/- 81 mumol/l for control patients. The mean +/- SEM 3-methylhistidine loss for burned patients on the third day was 9.83 +/- 0.82 mumol/kg compared to 3.6 mol/kg for control patients. Insulin levels on the third day of fast were three times the normal group. This insulin increase may be the modulating factor that suppresses excessive fat mobilization. This metabolic response causes a lower plasma ketone level, which may then necessitate the need for continued protein catabolism for glucose production for certain tissues. The protein contribution to the hypercatabolic response as assessed by increased urinary nitrogen losses is in part supported by an increased muscle protein breakdown as indicated by increased 3-methylhistidine excretion.
...
PMID:The effect of major thermal injury and carbohydrate-free intake on serum triglycerides, insulin, and 3-methylhistidine excretion. 638 84

The effect of progressive moderate exercise on body weight gain, visceral and muscle protein stores, and thyroid hormone levels during an 8-day refeeding period after 65 h of starvation was studied in 2-month-old male Sprague-Dawley rats. Twenty-four animals were divided into three groups and acclimated for 5 days while being fed with ordinary Purina Chow. After the fasting phase, a group of rats was killed in order to provide base-line information concerning fasting-induced changes in body composition; a sedentary group was fed Purina Chow ad libitum; and a treadmill-exercised group was pair fed with the sedentary rats. During the refeeding phase, the exercised animals regained significantly less weight than the sedentary animals (p less than 0.001), but the two groups did not differ significantly with respect to visceral, muscle, eviscerated carcass, and skin protein. Total body fat content was lower in the exercised than the sedentary group. The thyroid hormone levels were not significantly different for the two refed groups. These results indicate that exercise during refeeding may alter the pattern of body weight gain during refeeding after fasting such that the replenishment of adipose tissue stores is reduced without compromising the restoration and growth of lean tissue.
...
PMID:Energy depot replenishment in rats during refeeding after fasting: effect of exercise. 649 80

<< Previous 1 2 3 4 5 6 7 8 9 Next >>