UMLS:C0038187 - FACTA Search

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

Mitochondrial and peroxisomal fatty acid oxidation were compared in whole liver homogenates. Oxidation of 0.2 mM palmitoyl-CoA or oleate by mitochondria increased rapidly with increasing molar substrate:albumin ratios and became saturated at ratios below 3, while peroxisomal oxidation increased more slowly and continued to rise to reach maximal activity in the absence of albumin. Under the latter condition mitochondrial oxidation was severely depressed. In homogenates from normal liver peroxisomal oxidation was lower than mitochondrial oxidation at all ratios tested except when albumin was absent. In contrast with mitochondrial oxidation, peroxisomal oxidation did not produce ketones, was cyanide-insensitive, was not dependent on carnitine, and was not inhibited by (+)-octanoylcarnitine, malonyl-CoA and 4-pentenoate. Mitochondrial oxidation was inhibited by CoASH concentrations that were optimal for peroxisomal oxidation. In the presence of albumin, peroxisomal oxidation was stimulated by Triton X-100 but unaffected by freeze-thawing; both treatments suppressed mitochondrial oxidation. Clofibrate treatment increased mitochondrial and peroxisomal oxidation 2- and 6- to 8-fold, respectively. Peroxisomal oxidation remained unchanged in starvation and diabetes. Fatty acid oxidation was severely depressed by cyanide and (+)-octanoylcarnitine in hepatocytes from normal rats. Hepatocytes from clofibrate-treated rats, which displayed a 3- to 4-fold increase in fatty acid oxidation, were less inhibited by (+)-octanoylcarnitine. Hydrogen peroxide production was severalfold higher in hepatocytes from treated animals oxidizing fatty acids than in control hepatocytes. Assuming that all H2O2 produced during fatty acid oxidation was due to peroxisomal oxidation, it was calculated that the contribution of the peroxisomes to fatty acid oxidation was less than 10% both in cells from control and clofibrate-treated animals.
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PMID:Mitochondrial and peroxisomal fatty acid oxidation in liver homogenates and isolated hepatocytes from control and clofibrate-treated rats. 43 7

Lipogenesis is increased in hepatocytes from fed lactating rats compared with virgin rats. Inhibition of lipogenesis with 5-(tetradecyloxy)-2-furoic acid resulted in increased ketogenesis from endogenous substrate, but not from oleate. Dihydroxyacetone increased ketogenesis from endogenous substrate, but not from oleate. Dihydroxyacetone increased lipogenesis and esterification of [1--14C]oleate and decreased ketogenesis; these changes were reversed by the inhibitor. The reciprocal relationship between lipogenesis and ketogenesis in hepatocytes from fed rats may be due to alterations in [malonyl-CoA] [McGarry, Mannaerts & Foster (1977) J. Clin. Invest. 60, 265--270; Cook, King & Veech (1978) J. Biol. Chem. 253, 2529--2531], but this mechanism is not considered to be sufficient to explain the increased ketogenesis in starvation completely.
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PMID:Evidence for a reciprocal relationship between lipogenesis and ketogenesis in hepatocytes from fed virgin and lactating rats. 72 13

The rate of chain elongation of palmityl-CoA to stearyl-CoA in rat liver microsomes was studied in connection with the nutritional status of the rats. The microsomal chain elongation activity, which had been decreased by starvation for 48 hr, was rapidly increased to a high level on refeeding. The apparent Km value for malonyl-CoA in both normal and refed rats was the same, 1.2 X 10(4)M. Both cycloheximide and actinomycin D prevented the induction of microsomal chain elongation activity which was associated with refeeding. In addition, the activity of acyl-CoA hydrolase and the rates of esterification of acyl-CoA into phospholipids and neutral lipids in microsomes were not changed by the dietary alteration. These results support the conclusion that changes of the activity of microsomal chain elongation of palmityl-CoA in various nutritional status result from a rapid synthesis of new enzyme(s).
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PMID:Dietary control of the chain elongation of palmityl-CoA in rat liver microsomes. 86 44

The effect of insulin on the properties of liver carnitine palmitoyltransferase I (CPT I) was assessed in conscious starved rats with the euglycemic hyperinsulinemic clamp. A 24-hour clamp was necessary to fully reverse the effect of starvation on liver malonyl-CoA concentration, CPT I maximal activity, and apparent km and Ki for malonyl-CoA. Since glucagon was not decreased during the clamp, insulin is the major factor involved in the regulation of CPT I.
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PMID:Effect of insulin on the properties of liver carnitine palmitoyltransferase in the starved rat: assessment by the euglycemic hyperinsulinemic clamp. 186 36

1. The effect of nutritional status on fatty acid synthesis in brown adipose tissue was compared with the effect of cold-exposure. Fatty acid synthesis was measured in vivo by 3H2O incorporation into tissue lipids. The activities of acetyl-CoA carboxylase and fatty acid synthetase and the tissue concentrations of malonyl-CoA and citrate were assayed. 2. In brown adipose tissue of control mice, the tissue content of malonyl-CoA was 13 nmol/g wet wt., higher than values reported in other tissues. From the total tissue water content, the minimum possible concentration was estimated to be 30 microM 3. There were parallel changes in fatty acid synthesis, malonyl-CoA content and acetyl-CoA carboxylase activity in response to starvation and re-feeding. 4. There was no correlation between measured rates of fatty acid synthesis and malonyl-CoA content and acetyl-CoA carboxylase activity in acute cold-exposure. The results suggest there is simultaneous fatty acid synthesis and oxidation in brown adipose tissue of cold-exposed mice. This is probably effected not by decreases in the malonyl-CoA content, but by increases in the concentration of free long-chain fatty acyl-CoA or enhanced peroxisomal oxidation, allowing shorter-chain fatty acids to enter the mitochondria independent of carnitine acyltransferase (overt form) activity.
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PMID:Regulation of fatty acid synthesis and malonyl-CoA content in mouse brown adipose tissue in response to cold-exposure, starvation or re-feeding. 288 57

Administration to normal rats of 100 mg of streptozotocin/kg body weight produced ketotic diabetic rats in which the affinity of carnitine palmitoyltransferase for malonyl-CoA was decreased by 10-fold and its activity was increased by 30%, but the injection of insulin brought the affinity and the activity back to normal within 4 h. Administration of 60 mg of streptozotocin/kg produced non-ketotic diabetic rats and caused a less substantial change in the affinity of carnitine palmitoyltransferase for malonyl-CoA. In the BB Wistar diabetic rat, the onset of diabetes also increased the activity of carnitine palmitoyltransferase and decreased its affinity for malonyl-CoA. Injection of insulin brought both of these values back to normal within 2 h. The total activity of mitochondrial carnitine palmitoyltransferase (outer + inner activities) was 40% greater in the BB Wistar diabetic rat, but treatment with insulin did not decrease the total activity to normal values within 2 h. The elevated activity and decreased affinity for malonyl-CoA found in fasting rats did not respond to short-term insulin treatment. The evaluation of a previous report that cycloheximide blocks the effects of starvation indicated that cycloheximide did not act by inhibiting protein synthesis, but produced its effect by preventing gastric emptying. Current data suggest that diabetes increases the activity of carnitine palmitoyltransferase and greatly diminishes the affinity of the enzyme for malonyl-CoA and that the severity of diabetes is associated with differences in the affinity of the enzyme for its inhibitor. Insulin acts on the outer carnitine palmitoyltransferase to reverse these effects very rapidly, but diabetes produces some change in the total activity that is not reversed by short-term treatment with insulin.
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PMID:Regulation of carnitine palmitoyltransferase by insulin results in decreased activity and decreased apparent Ki values for malonyl-CoA. 295 85

1. A permeabilized isolated rat liver cell preparation was developed to achieve selective permeabilization of the cell membrane to metabolites and to allow the assay of mitochondrial overt carnitine palmitoyltransferase (CPT I) activity in situ. By performing the digitonin-induced permeabilization in the presence of fluoride and bivalent-metal-cation sequestrants, it was possible to demonstrate that the activity of other enzymes, which are regulated by reversible phosphorylation, was preserved during the procedure and subsequent washing of cells before assay. 2. CPT activity at a sub-optimal palmitoyl-CoA concentration was almost totally (approximately 90%) inhibited by malonyl-CoA, indicating that mitochondrial CPT I was largely measured in this preparation. 3. The palmitoyl-CoA-saturation and malonyl-CoA-inhibition curves for CPT activity in permeabilized cells were very similar to those obtained previously for the enzyme in isolated liver mitochondria. Moreover, starvation and diabetes had the same effects on enzyme activity, affinity for palmitoyl-CoA and malonyl-CoA sensitivity of CPT I in isolated cells as found in isolated mitochondria. These physiologically induced changes persisted through the cell preparation and incubation period. 4. Neither incubation of cells with glucagon or insulin nor incubation with pyruvate and lactate before permeabilization resulted in alterations of these parameters of CPT I in isolated cells. 5. The results are discussed in relation to the temporal relationships of changes in the activity and properties of CPT I in vivo in relation to the effects of insulin and glucagon on fatty acid metabolism in vivo.
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PMID:Use of a selectively permeabilized isolated rat hepatocyte preparation to study changes in the properties of overt carnitine palmitoyltransferase activity in situ. 328 53

Several investigators have demonstrated a diminished rate of ketogenesis during inflammatory or infectious states despite the availability of free fatty acids supplied to the liver. The biochemical mechanism for this effect is unknown. Malonyl-CoA has been proposed to be a regulator of ketogenesis. Malonyl-CoA levels are low in states of rapid ketogenesis such as starvation or diabetes and high in states of reduced ketogenesis such as carbohydrate feeding. In the present study, the effect of an intra-abdominal abscess on the level of hepatic malonyl-CoA was investigated in four groups of animals (fed control, sterile inflammation, small chronic septic abscess, large chronic septic abscess). Liver samples were frozen in situ 5 days following the intraperitoneal introduction of a rat-fecal agar pellet inoculated with a known bacterial flora which generated an abscess [sterile inflammatory; B. fragilis 10(8)/ml + E. coli 10(2)/ml (small, 0.8 ml or large, 1.5 ml) abscess pellet]. The level of malonyl-CoA in normal fed rats was 5.0 +/- 0.6 nmol/gm wet wt (n = 9). The malonyl-CoA level was not altered in animals with a sterile inflammation. However, hepatic malonyl-CoA levels were significantly increased in small (10 +/- 1 nmole/gm wet wt) (p less than 0.05; n = 9) or large (12 +/- 1 nmol/gm wet wt) (p less than 0.01; n = 14) septic abscess rats compared to control fed and sterile inflammatory rats. Hepatic ketone bodies (beta-hydroxybutyrate and acetoacetate) did not increase in sepsis over control or sterile inflammation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A biochemical basis for depressed ketogenesis in sepsis. 370 91

Hepatic mitochondrial carnitine palmitoyltransferase (CPT) properties, beta-oxidation of palmitoyl-CoA and membrane polarization were measured in lean and obese Zucker rats. The Vmax. of the 'outer' carnitine palmitoyltransferase ('CPT-A') increased with starvation, with no change in the Km for either carnitine or palmitoyl-CoA. The Ki for malonyl-CoA increased with starvation in lean rats, but not in obese rats. The Vmax. of the 'inner' enzyme ('CPT-B'), as measured by using inverted submitochondrial vesicles, increased with starvation in obese rats only, with no change in the Km for either carnitine or palmitoyl-CoA. The Ki for malonyl-CoA was 2-5-fold higher in inverted vesicles than in intact mitochondria, and showed no alteration with starvation. The activities of both enzymes correlated positively with each other and with beta-oxidation, and inversely with membrane polarization. Malonyl-CoA had little effect on gross membrane fluidity in the Zucker rat, as reflected by diphenylhexatriene fluorescence polarization. The results indicate that both enzymes are related and respond similarly to alterations in membrane fluidity. Membrane fluidity may provide a mechanism for co-ordinated control of CPT activity on both sides of the mitochondrial inner membrane.
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PMID:Hepatic mitochondrial inner-membrane properties, beta-oxidation and carnitine palmitoyltransferases A and B. Effects of genetic obesity and starvation. 395 44

The overt activity of hepatic carnitine palmitoyltransferase (CPT1) increased during the last day of gestation in the foetus and after prolonged starvation in the newborn kept at 37 degrees C. Its sensitivity to inhibition by malonyl-CoA decreased during the perinatal period studied. Brown fat CPT1 increased under the same experimental conditions. However, its sensitivity to malonyl-CoA remains unchanged. Hypothermia at 24 degrees C decreased in the liver and increased in brown adipose tissue CPT1 activity in response to fasting. Glucose injection at birth decreased CPT1 activity in the liver but did not have any effect in the presence of mannoheptulose. This effect of glucose was non-significant in brown adipose tissue.
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PMID:Regulation of carnitine palmitoyltransferase activity in the liver and brown adipose tissue in the newborn rat: effect of starvation and hypothermia. 396 61

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