UMLS:C0009443 - FACTA Search

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Query: UMLS:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of rats to the cold (4-5 degrees C) caused large (2-3-fold) increases in the mass of interscapular brown adipose tissue (BAT), its mitochondrial content and the basal metabolic rate of the animals. The rate of substrate oxidation by BAT mitochondria also increased about 3-fold. When cold-acclimated animals were exposed to heat (37 degrees C), the BMR decreased by half in 3 h, the earliest time interval tested. Mitochondrial substrate oxidation, as well as substrate-dependent H2O2 generation, showed a proportionate decrease in rates. In these mitochondria, activities of cytochrome c reductases, but not dehydrogenases with NADH, alpha-glycerophosphate and succinate as substrates, also showed a significant decrease. The concentration of cytochromes aa3 and b, but not cytochrome c, also decreased in BAT mitochondria from 12-h heat-exposed animals, while the change in concentration of cytochrome b alone was found as early as 3 h of heat exposure. These results identify the change in cytochromes as a mechanism of regulation of oxidative activities in BAT mitochondria under conditions of acute heat stress.
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PMID:Decrease of oxidative activities in brown adipose tissue mitochondria of cold acclimated rats on short term exposure to heat stress. 237 58

Defibrotide, a polydeoxyribonucleotide obtained from mammalian lungs, has been demonstrated to exert profibrinolytic and antithrombotic activity through stimulation of vascular prostacyclin (PGI2) production. We studied the effect of defibrotide administration in protecting liver and heart from ischaemic and postischaemic reperfusion damage. Defibrotide was administered as an i.v. bolus (30 mg/kg) at the beginning of liver ischaemia and at the same dose continuously during 60 min of postischaemic reperfusion. ATP levels were significantly improved in livers of defibrotide-treated rats as compared to those obtained in livers of rats treated with vehicle of the drug. Intrahepatic cytoplasmic and mitochondrial NAD+/NADH ratios were higher in defibrotide-treated than in vehicle-treated animals. The hearts, isolated from rats according to the transplantation procedure, were subjected to different times of warm + cold ischaemia. During ischaemia, the hearts were perfused continuously with 60 mg/kg of defibrotide or vehicle of the drug. The loss of creatine phosphokinase and lactate dehydrogenase activities due to an increased ischaemia time was limited in defibrotide-perfused hearts. Intracardiac ATP and ADP levels were significantly higher in defibrotide-treated organs than in controls. Our results demonstrate the efficacy of defibrotide in protecting liver and heart from ischaemia.
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PMID:Defibrotide, a stimulator of prostacyclin (PGI2) production, prevents the effects of ischaemic damage. 251 98

Injury to parenchymal and nonparenchymal cells of livers stored in cold Euro-Collins solution was assessed following reperfusion and compared with graft survival following orthotopic rat liver transplantation. Parenchymal cells maintained their viability nearly completely after up to 24 hr of cold storage as assessed by trypan blue exclusion (97% of cells) and LDH release (4% of total) from livers reperfused for 20 min following storage. Furthermore, hepatic glycolysis (rates of lactate plus pyruvate production), oxygen uptake and NADH redox state (lactate:pyruvate ratio) were in the normal range at all time points studied up to 24 hr of cold storage. In contrast, nonparenchymal cells lost viability as assessed from trypan blue staining beginning after 8 hr of storage: 40% were nonviable after 24 hr of storage. Since injury to nonparenchymal cells occurs only upon reperfusion, oxygen radicals may be involved. Accordingly, xanthine and hypoxanthine, substrates for oxygen radical formation, were measured in perfusate upon reperfusion. Both purines accumulated (up to 80 microM) with time of storage and were washed out rapidly (less than 10 min) upon reperfusion. Although parenchymal cell function was in the normal range in livers stored in the cold for 24 hr, liver grafts stored for 6 hr and longer in Euro-Collins solution could not be transplanted successfully. Thus, we conclude that viability of parenchymal cells in liver grafts prior to transplantation is a poor parameter to predict the outcome of transplantation. Therefore, assessment of parenchymal cell energy state (e.g., with 31P NMR and other methods) most likely will not predict survival reliably. On the other hand, nonparenchymal cells lose their viability significantly earlier following storage and reperfusion. These data suggest that preservation of nonparenchymal cell viability is critical for successful liver transplantation.
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PMID:Evidence that graft survival is not related to parenchymal cell viability in rat liver transplantation. The importance of nonparenchymal cells. 267 7

An isocratic reverse-phase high-performance liquid chromatography method for the separation and quantitation of total pyridine dinucleotides in hepatocyte cultures is described. Cells are extracted with cold 3 M perchloric acid or 0.5 N sodium hydroxide containing 50% (v/v) ethanol and 35% cesium chloride for the determination of the oxidized or reduced pyridine dinucleotides, respectively. Pyridine dinucleotides in the neutralized extracts were separated on an Excellopak ODS C18 (4.6 X 150 mm) column with 0.1 M potassium phosphate, pH 6.0, containing 3.75% methanol as the mobile phase. NAD+ and NADP+ were detected spectrophotometrically at 254 nm. The response was linear from 5 to 4000 pmol with recoveries of NAD+ and NADP+ of 98 and 101.1%, respectively. NADH and NADPH were monitored fluorometrically by activation at 370 nm and emission in the 400-700 nm range. The reduced pyridine dinucleotides had a linear response from 7.5 to 60 pmol with recoveries of NADH and NADPH of 99.4 and 101.3%, respectively. The coefficients of variation for all of the pyridine dinucleotide standards were less than 3.5%.
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PMID:Analysis of pyridine dinucleotides in cultured rat hepatocytes by high-performance liquid chromatography. 275 99

Acyl-CoA hydrolase activities were studied in brown adipose tissue from hamsters. A latent activity was observed in isolated mitochondria. Two peaks of activity were clearly visible in mitochondria, one with an optimum at propionyl-CoA ("short-chain hydrolase") and one with an optimum at nonanoyl-CoA ("medium-chain hydrolase"); there was only low activity toward palmitoyl-CoA and longer-chain acyl-CoAs. In subcellular fractionation experiments, the activity of the short-chain and the medium-chain hydrolase fully followed that of the mitochondrial matrix marker enzyme 2-oxoglutarate dehydrogenase. The specific activity of the hydrolases in the mitochondrial fraction was doubled after cold acclimation. beta-NADH inhibited the short- and medium-chain hydrolases; alpha-NADH, NADPH, and NAD+ were without effect. ADP stimulated the short- and medium-chain hydrolases; ATP and AMP were practically without effect. Evidence is presented to indicate that NADH and ADP interact on the enzyme at the same site and that ADP is essential for the maintenance of the short- and medium-chain enzyme activities. A positive effect of KCl was found on the short- and medium-chain hydrolase activities. Also, the divalent ions Ca2+ and Mg2+ were stimulatory, but only Ca2+ was able to overcome NADH inhibition, possibly due to interaction directly with NADH. It is concluded that brown adipose tissue mitochondria, besides a conventional type of acyl-CoA hydrolase, contain two species of a novel type of acyl-CoA hydrolases which are characterized by being regulated by ADP and NADH (interacting at a common site) and by having an obligatory requirement for ADP.
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PMID:A novel type of short- and medium-chain acyl-CoA hydrolases in brown adipose tissue mitochondria. 290 16

Perisplasmic cytochrome C552 was purified from a cold shock fluid. We demonstrated that this protein could reduce nitrite into ammonium. The reducing equivalents could be donated by formate or NADH through some segment of the membrane respiratory chain. FAD addition was necessary when pure cytochrome was used to reduce nitrite. The predominant form was found to have a molecular weight of about 65 to 70 K daltons, composed of three 21,000 d. subunits. Hemes may or may not be present on the subunit.
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PMID:Periplasmic cytochrome C552 of Escherichia coli K12. Oligomeric structure and its role in nitrite reduction. 301 Oct 5

It is shown that both phosphorylating and nonphosphorylating (noncoupled) respirations, the latter being regulated by GDP and increasing in a series of substrates - pyruvate + malate----succinate----NADH----ascorbate(+ cytochrome c) have been presented in brown fat mitochondria of newborn guinea pigs and of adult rats under thermoneutral conditions. Noncoupled respiration is suggested to support thermogenesis not only under cold exposure but under thermoneutral conditions as well.
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PMID:[Respiration of mitochondria from brown fat and the mechanism of thermogenesis]. 320 65

The changes of energy metabolism on vasogenic edema have been largely examined using biochemical quantitative assay. However, the relationship between the sequential changes and blood-brain barrier (BBB) breakdown is not well understood. In the present study, the sequential changes of energy metabolism and potassium in relation to BBB breakdown following the cold-induced brain edema were investigated histochemically. Adult male Wistar rats, weighing 200-250g, were anesthesized with pentobarbital and a burr hole was made in the left parietal region. For evaluating the breakdown of BBB, 2.5% Evans blue (EB) was injected 30 min. before injury, except in the 5 min. model in which it was injected at the time of cold injury. An iron-bar precooled in liquid N2 was placed over the surface for 30 seconds and they were frozen in situ in liquid N2 at 5 min., 2 hrs., 6 hrs., 12 hrs., and 24 hrs., after producing the lesion. The frozen brain was sectioned using a precooled saw in the coronal plane. The brain section was placed in liquid N2 bath and illuminated with 366 nm light (UV) from a 200 watt mercury lamp and Corning filter 5840. NADH fluorescence was recorded photographically through Corning filter 3387 and 5562. Regional ATP and potassium content were investigated histochemically in thin sections with luciferine-luciferase method and Macallum's technique, respectively. At 5 min. after cold injury, leakage of EB was limited within the lesion. Potassium and ATP were decreased in the lesion. NADH fluorescence was increased slightly in the cortex around the lesion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The sequential changes of energy metabolism following cold-induced brain edema--a histochemical study]. 362 Feb 15

We have demonstrated in rat adrenal (Natarajan, R.D. and Harding, B.W. (1985) J. Biol. Chem. 260, 3902-3905) that NADH-semidehydroascorbate reductase and ascorbate participate in an electron transport pathway (ETP) supplying reducing equivalents from NADH to cytochrome P-450scc. Here, we demonstrate that this ascorbate dependent ETP also supplies reducing equivalents to cytochrome P-450(11 beta/18) in both rat adrenal and bovine adrenal cortex. The activity is dependent upon addition of catalase or upon 'cold shock' treatment of isolated mitochondria. Comparison of the rates of 11 beta- and 18-hydroxylation supported by this ETP and by the classical pathway supported by various TCA cycle intermediates suggests that in vivo the ascorbate dependent pathway may be essential for maximal flow of reducing equivalents to the mitochondrial hydroxylases. Partial reconstitution of the ascorbate dependent 11 beta/18-hydroxylase activity was achieved with purified bovine outer mitochondrial and inner mitochondrial membranes fortified with supernatant from sonified mitochondria all preincubated with phosphatidyl choline. These preparations no longer require catalase or 'cold shock' treatment. Ascorbate and NADH-semidehydroascorbate reductase are unable to support 17 alpha- or 21-hydroxylase activity in isolated bovine adrenal cortical microsomes whether incubated with purified outer mitochondrial membranes or not.
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PMID:The function of NADH-semidehydroascorbate reductase and ascorbic acid in corticosteroid hydroxylation. 366 95

Peroxisomes are ubiquitous subcellular organelles. They contain catalase and hydrogen peroxide-producing oxidases like fatty acyl-CoA oxidase. The latter enzyme is part of a special fatty acid beta-oxidation system which shortens long-chain fatty acids. The middle-chain acids formed are subsequently degraded by mitochondria. The capacity to remove very long fatty acids and trans-unsaturated acids found in hydrogenated oils is restricted to peroxisomes. Essentially, the peroxisomal beta-oxidation system is not constitutive but inducible by certain hypolipidaemic compounds which are distinguished by their capacity to lead to proliferation of peroxisomes. Thyroid hormones as well as prolonged exposure to cold and high fat diets, esp. with long-chain unsaturated fatty acids, also induce beta-oxidation and peroxisome proliferation. Two other beta-oxidative reactions namely the removal of the cholesterol side-chain, leading to the formation of bile acids, and the degradation of dicarboxylic acids as formed by omega-oxidation of fatty acids were shown to be connected with peroxisomes. Presumably also 3-hydroxy-3-methyl-glutaryl-CoA reductase, the key enzyme of cholesterol biosynthesis exists in a peroxisomal moiety. NADPH consumed in this reaction (and in the dihydroxyacetone phosphate pathway of glycerolipid synthesis) might be provided by glucose-6-phosphate dehydrogenase which was recently also found in peroxisomes. Peroxisomes are indispensable in forming saturated ether lipids and plasmalogens because alkyldihydroxyacetone phosphate synthase is a membrane enzyme exclusively located in peroxisomes. Certain other enzymes of the dihydroxyacetone phosphate pathway of glycerolipid synthesis are also found in peroxisomes. Because of the combination of oxidases like fatty acyl-CoA oxidase and catalase and the feasibility of reoxidising NADH within the peroxisomes the aerobic metabolism of peroxisomes is energy-wasting. Therefore they might be important in chemical thermogenesis and in the control of body weight. For all these reasons peroxisomes must be essential for human metabolism. This is further demonstrated by genetically caused disorders: Total absence of peroxisomes is connected with the fatal cerebro-hepatorenal Zellweger syndrome. Defective peroxisomal beta-oxidation is manifested in Schilder's disease (adrenoleukodystrophy) characterized by accumulation of very long fatty acids. Peroxisomes perform a number of complementary and auxiliary reactions in general cell metabolism, in particular the cata- and anabolism of certain lipids, and therefore deserve consideration in clinical chemistry.
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PMID:[The contribution of peroxisomes to lipid metabolism]. 371 95

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