Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Multiple infarcts were produced in cerebral hemispheres of rats by injecting calibrated 50-micron microspheres into the left internal carotid artery, and alterations in lipid and energy metabolism were evaluated 24 hours later in the embolized hemisphere. Total phospholipid content was decreased by 26%, but the different classes of phospholipids were not equally affected. Phosphatidylinositol and phosphatidylserine levels were decreased by about 40% and phosphatidylcholine and phosphatidylethanolamine by 25%, while sphingomyelin level remained unchanged. There was a 3.2-fold increase in total free fatty acid content with a relatively larger rise in polyunsaturated free fatty acids 20:4 and 22:6 (20-fold increase). Determination of enzyme activities showed decreases in Na+,K+-ATPase (-21%) and hexokinase (-14%) but no changes in phosphofructokinase and pyruvate kinase. Study of energy metabolism using the closed system method of Lowry et al showed a significant depression (-36%) of the cerebral metabolic rate. Taken together, these data suggest a relation between lipid alterations and dysfunction of energy metabolism. Phospholipid degradation with subsequent free fatty acid release and alteration in membrane-bound enzymes may have a direct effect on metabolic machinery and may slow cerebral metabolic rate.
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PMID:Lipid metabolism, cerebral metabolic rate, and some related enzyme activities after brain infarction in rats. 356 99

A probably promoter-specific decrease of L-type pyruvate kinase (L-PK) in Wistar rat liver is described. The possibility of utilizing the decrease in L-PK activity for screening of hepatic promoters is discussed. A significantly decreased level of activity of L-PK was observed during continuous feedings of the hepatocarcinogen 3'-methyl-4-dimethylaminoazobenzene [(3'-MeDAB) CAS: 55-80-1], which initiates and promotes hepatocarcinogenesis, and of the known hepatic promoters phenobarbital [(PB) CAS: 50-06-6] and dichlorodiphenyltrichloroethane (CAS: 50-29-3) for at least 4 weeks. In contrast, if it occurred, the decrease in L-PK activity by the nonpromoting agents amobarbital (CAS: 57-43-2) and diphenylhydantoin. (CAS: 57-41-0) was temporary and almost overcome by the 4th week. The depression of L-PK activity caused by PB was reversible, was inversely correlated with PB concentration in the diet, and seemed to be organ-specific. Although hepatic promoters lowered L-PK activity in this study, data are so limited that a much more extensive study is necessary before a general conclusion can be drawn. In contrast to L-PK activity, the activity of K-type pyruvate kinase (K-PK) was induced by injections of the carcinogen diethylnitrosamine (CAS: 55-18-5) or the hepatotoxin CCl4 (CAS: 56-23-5) or by the feeding of 3'-MeDAB. However, feeding of PB or 2-methyl-4-dimethylaminoazobenzene (CAS: 54-88-6), which initiates but does not promote hepatocarcinogenesis, did not increase K-PK activity.
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PMID:Decrease in L-type pyruvate kinase activity in rat liver by some promoters of hepatocarcinogenesis. 659 85

The activity of NAD-linked alpha-glycerol-3-phosphate dehydrogenase (NAD-G3PDH; EC 1.1.1.8) was depressed by 35% when the thyroid hormone 3,3',5-triiodo-L-thyronine (20 micrograms/liter) was added to the serum-free, hormonally supplemented medium of cultured neonatal rat heart cells. The degree of depression was greater (65%) when the medium contained normal serum levels of hydrocortisone and insulin. There is a dramatic inverse dose-response relationship between triiodothyronine levels and NAD-G3PDH activity. The classic elevation by thyroid hormones of the FAD-linked alpha-glycerol-3-phosphate dehydrogenase (FAD-G3PD; EC 1.1.99.5) was observed concurrently. The medium-glucose depletion rate in triiodothyronine-free cells was depressed 32% through 11 days-in-culture, indicating reduced glycolytic activity. The activities of nine other metabolically important enzymes which were measured during this study, including hexokinase, glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, phosphofructokinase, pyruvate kinase, malate dehydrogenase, NAD-isocitrate dehydrogenase, NADH cytochrome c reductase, and succinic cytochrome c reductase, did not respond to varying triiodothyronine concentrations.
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PMID:Triiodothyronine depresses the NAD-linked glycerol-3-phosphate dehydrogenase activity of cultured neonatal rat heart cells. 669 42

Rapid depression of Ca(2+)-uptake by sarcoplasmic reticulum (SR) vesicles and inhibition of the activity of creatine kinase (CK) and pyruvate kinase (PK) was observed during incubation of enzymes with micromolar concentrations of iron in the presence of adenine nucleotides. This effect of iron was dependent on the redox state of the iron as determined by the redox state of the environment. Redox conditions that generated an Fe2+/Fe3+ ratio close to 1 were most effective in depressing Ca(2+)-uptake by SR vesicles. Redox conditions that decreased the Fe2+/Fe3+ ratio by oxidizing iron were most effective in depressing CK activity while redox conditions that significantly increased the Fe2+/Fe3+ ratio by reducing iron were most effective in depressing PK activity. All iron sensitive enzymes possessed N-etylmaleimide (NEM) sensitive sulphydryl groups that are essential for their activity. The sensitivity to inhibition by NEM increased in the order: PK < Ca(2+)-uptake < CK. Iron initiated depression of CK and PK activities were reversible with dithiothreitol (DTT). This indicated that modification of SH groups was an important step in the mechanism by which iron depressed enzyme activity. Iron initiated depression of Ca(2+)-uptake and of the activity of CK and PK was prevented by not allowing the critical Fe2+/Fe3+ ratio to be reached and by binding of iron with desferroxamine and EDTA. These results, together with data from the literature, led us to suggest that changes in the redox state of cellular micro-environments, inevitably taking place during ischemia and reperfusion, may increase the availability of "low molecular weight iron" and, through changes in the redox state of this iron, selectively initiate reversible depression of several enzymes which contain SH groups essential for their activity.
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PMID:Iron effects on myocardial enzymes depend on redox state. 800 76

Iron ions in micromolar concentrations induced a rapid and selective inhibition of the activity of skeletal muscle creatine kinase (CK), sarcoplasmic reticulum (SR) Ca(2+)-ATPase, and pyruvate kinase (PK). This effect of iron was dependent on the presence of adenine nucleotides and on the redox state of iron. Changing the redox state of the media created different Fe2+/Fe3+ ratios which selectively depressed different enzymes: depression of PK activity occurred when iron was predominantly in its reduced form and, consequently, when there was a high Fe2+/Fe3+ ratio; depression of SR Ca2+ uptake and SR Ca(2+)-ATPase activity occurred when the Fe2+/Fe3+ ratio was close to 1; depression of CK activity occurred when iron was predominantly in its oxidized form and the Fe2+/Fe3+ ratio was low. All iron-sensitive enzymes possessed sulfhydryl groups, accessible to N-ethylmaleimide (NEM), which were essential for their activity. The rate of inhibition of enzyme activity with NEM increased in the order PK < Ca(2+)-ATPase < CK. Iron-induced depression of CK and PK activities was reversible by dithiotreithol. Results suggest that changes in the redox state of cellular microenvironments, which inevitably occur during reperfusion of ischemic tissue or rapid increase in tissue oxygen consumption, may selectively depress the activity of several enzymes bearing SH groups that are sensitive to modifications and that are essential for their activity. Iron-induced depression of enzyme activity depends on the availability of iron bound to adenine nucleotides and possibly to other low molecular weight chelators and on the Fe2+/Fe3+ ratio generated by the induced redox change.
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PMID:The effect of changes in iron redox state on the activity of enzymes sensitive to modification of SH groups. 834 18

Both pyruvate kinase (PK) and phosphofructokinase (PFK) occur in two different forms, separable by isoelectric focusing (IEF), in skeletal muscle of the spadefoot toad Scaphiopus couchii. During estivation (aerobic dormancy) the proportions of the two forms changed compared with controls; in both cases the amount of enzyme in Peak I (pI = 5.3-5.4) decreased whereas activity in Peak II (isoelectric point = 6.2-6.4) increased. In vitro incubation of crude muscle extracts with 32P-ATP under conditions that promoted the activity of cAMP-dependent protein kinase led to strong radiolabeling associated with Peak I, but not Peak II, and reverse phase HPLC confirmed that 32P was associated with the subunits of both PK and PFK found in Peak I. Specific radiolabeling of Peak I PK and PFK by protein kinase A was further confirmed using immunoprecipitation. In total, this information allowed identification of the Peaks I and II enzymes as the phosphorylated and dephosphorylated forms, respectively, and the effect of estivation was to increase the proportion of dephosphorylated PK and PFK in muscle. Analysis of the kinetic properties of partially purified PK and PFK revealed significant kinetic differences between the two forms of each enzyme. For PK, the Peak II (low phosphate) enzyme showed a 1.6-fold higher Km for phosphoenolpyruvate and a 2.4-fold higher Ka for fructose-1,6-bisphosphate than did the Peak I (high phosphate) form. These kinetic properties suggest that Peak II PK is the less active form, and coupled with the shift to predominantly the Peak II form during estivation (87% Peak II vs. 13% Peak I), are consistent with a suppression of PK activity in estivating muscle, as part of the overall metabolic rate depression of the estivating state. A similar shift to predominantly the Peak II, low phosphate, form of PFK (75% Peak II, 25% Peak I) in muscle of estivating animals is also consistent with metabolic suppression since phosphorylation of vertebrate skeletal muscle PFK is typically stimulated during exercise to enhance enzyme binding to myofibrils in active muscle. Peak II PFK also showed reduced sensitivity to inhibition by Mg:ATP (I50 50% higher) compared with the Peak I form suggesting that the enzyme in estivating muscle is less tightly regulated by cellular adenylate status than in awake toads. The data indicate that reversible phosphorylation control over the activity states of enzymes of intermediary metabolism is an important mechanism for regulating transitions between dormant and active states in estivating species.
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PMID:Reversible phosphorylation control of skeletal muscle pyruvate kinase and phosphofructokinase during estivation in the spadefoot toad, Scaphiopus couchii. 1039 81

The specific activity and the kinetic properties of partly purified pyruvate kinase (PK) (EC 2.7.1.40) from the Northern Krill, Meganyctiphanes norvegica, were investigated in relation to varying food resources. In order to evaluate the effect of starvation on the total energy metabolism, the respiration rates of fed and unfed krill were determined. The FPLC-elution profile of PK displayed two distinct peaks - PK I and II. The first isoform represented 80% of the total PK activity in the organism, and 20% was contributed by the second isoform. PK I was inhibited by ATP but was not influenced by fructose-1,6-bisphosphate (FBP). In contrast, PK II showed ATP inhibition and up to 2.5-fold increased activity by addition of 17 micromol.l(-1) FBP. The Michaelis-Menten constants of both isoforms were 2-10-fold higher for ADP than for phosphoenolpyruvate (PEP). Alanine showed no regulatory effect on PK I and II. In specimens starved for 7 days oxygen consumption decreased by 20%. Neither the feeding experiments nor the animals captured in the field during low and high productive seasons indicate that PK properties of M. norvegica are modified in relation to food supply. Accordingly, alternative mechanisms are involved in the depression of the metabolic rate in terms of oxygen consumption.
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PMID:Studies on metabolic properties in the Northern Krill, Meganyctiphanes norvegica (Crustacea, euphausiacea): influence of nutrition and season on pyruvate kinase. 1115 47

A comparative expression proteome analysis was carried out by analyzing differential expression patterns of pulse-labelled proteins on two-dimensional gels under standard conditions and during purine nucleotide starvation, followed by mass spectrometric identification of regulated proteins. Based upon the expression patterns, three stimulons could be identified in Lactococcus lactis subsp. cremoris. The Psu proteins (purine starvation up-regulated) had increased synthesis during purine depletion in a purine auxotroph. Among these proteins were enzymes of the purine biosynthesis pathways (PurE, PurS, PurM, PurL), and enzymes involved in the generation of C1 units (GlyA, Fhs). C1 units are primarily required for purine biosynthesis. Upon analysis of the nucleotide sequence preceding the structural genes for these proteins in the L. lactis IL1403 genome sequence showed that all contained PurBox-Pribnov box structures resembling the PurR activated promoters for the purDEK and purCSQLF operons. Most, and possibly all members of the Psu stimulon are thus members of the PurR regulon. Five Psu proteins could not be identified. The second stimulon, the Psd stimulon (purine starvation decreased), whose members are down-regulated during purine depletion, contained proteins related to protein synthesis (PpsB, EF-TS, trigger factor), or to GTPases (FtsZ, EF-TS); or are involved in energy metabolism (GapB, CcpA). No common regulatory elements could be found for members of this stimulon. Two Psd proteins escaped identification. The last, Dcu (decoynine up-regulated), stimulon contained proteins whose synthesis escaped the severe general depression during inhibition of the GMP synthetase by decoynine. This regulon was comprised of mostly glycolytic enzymes (fructose bisphosphate aldolase, enolase, pyruvate kinase) and translation elongation factors (GTPases: EF-TU, EF-G). Two Dcu proteins could not be identified. Out of 28 proteins subjected to mass spectrometry, 19 could be readily identified despite the fact that only the genome sequence of a strain of L. lactis subsp. lactis was available. The two subspecies share about 85% sequence identity, comparable to the genetic distance between Escherichia coli and Salmonella typhimurium. A success rate of 68% indicates that it may be feasible to perform proteomics based upon genomic sequences of relatives outside the genus.
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PMID:Proteome analysis of the purine stimulon from Lactococcus lactis. 1274 56

We assessed the daily patterns of parameters involved in energy metabolism in plasma and brain of rainbow trout. Where daily rhythms were found, we analyzed the potential influence of feeding. Immature rainbow trout were randomly distributed in 3 groups: fish fed for 7 days, fish fasted for 7 days, and fish fasted for 7 days and refed for 4 days. On sampling day, fish of fed and refed groups were fed at 11.00 h, and all fish were sampled from each treatment group using the following time schedule: 14.00, 18.00, 21.00, 00.00, 04.00, 07.00, 10.00 and 14.00 h. The results obtained from metabolic parameters assessed in plasma and brain can be grouped into three different categories, such as (i) those displaying no 24 h changes in fed fish such as plasma lactate, protein or acetoacetate levels, as well as brain amino acid and protein levels, and lowKm(glucose) hexokinase, and aspartate aminotransferase activities, (ii) those displaying 24 h changes that were apparently dependent on feeding since they disappeared in fasted fish such as the case of plasma cortisol, glucose and triglyceride levels, as well as brain glycogen, glucose, and lactate levels, and pyruvate kinase and hexokinase IV activities, and (iii) those parameters displaying 24 h changes apparently not dependent on feeding such as plasma amino acids, brain acetoacetate levels as well as several enzyme activities measured in brain such as glucose 6-phosphate dehydrogenase, alpha-glycerophosphate dehydrogenase, glutamate dehydrogenase, and lactate dehydrogenase-oxidase. In general, 24 h changes dependent on feeding indicate an increased use of glucose in brain several hours post-feeding whereas those changes not dependent on feeding were characterized by reduced levels/activity at the night period suggesting a metabolic depression in brain during darkness.
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PMID:Daily changes in parameters of energy metabolism in brain of rainbow trout: dependence on feeding. 1712 77

The present study aimed to determine the thermal response of the Mediterranean mussel Mytilus galloprovincialis by integrating information from various levels of biological organization including behavior, metabolic adjustments, heat shock protein expression, and protein kinase activity. Behavioral responses were determined by examining the effect of warming on valve closure and opening. Metabolic impacts were assessed by examining the activity of the key glycolytic enzyme pyruvate kinase (PK). Molecular responses were addressed through the expression of Hsp70 and Hsp90 and the phosphorylation of stress-activated protein kinases, p38 mitogen-activated protein kinase (p38 MAPK) and cJun-N-terminal kinases (JNKs). Mussels increased the duration of valve closure by about sixfold when acclimated to 24 degrees C rather than to 17 degrees C. As indicated by the activity of PK, such behavior caused metabolic depression and probably a shift from aerobic to anaerobic metabolism. Acclimation to temperatures higher than 24 degrees C caused an increase in mortality and induced the expression of Hsp72. Increased phosphorylation of p38 MAPK and JNKs indicated activation of MAPK signaling cascades. The potential involvement of MAPKs in the induction of Hsp genes in the tissues of M. galloprovincialis is discussed. In conclusion, it seems that M. galloprovincialis lives close to its acclimation limits and incipient lethal temperature and that a small degree of warming will elicit stress responses at whole organism and molecular levels.
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PMID:Behavioral, metabolic, and molecular stress responses of marine bivalve Mytilus galloprovincialis during long-term acclimation at increasing ambient temperature. 1752 22


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