EC:4.1.2.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.2.13 (aldolase)
3,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The energy metabolism of the blood stage form of the human malaria parasite Plasmodium falciparum is adapted to the host cell. Like erythrocytes, P. falciparum merozoites lack a functional citric acid cycle. Generation of ATP depends therefore fully on the glycolytic pathway. Aldolase is a key enzyme of this pathway and a high degree of sequence diversity between parasite and host makes it a potential drug target. We have expressed the enzyme in its tetrameric form in Escherichia coli and the catalytic constants Vmax and Km of the recombinant enzyme correspond to the constants of parasite-derived aldolase. Rabbit antibodies against the recombinant P. falciparum aldolase inhibit the natural enzyme and no cross-reaction with human aldolase is detectable. Both the recombinant and the natural protein bind to the cytosolic domain of the band 3 membrane protein in vitro. A 19-residue synthetic peptide corresponding to the sequence of the binding domain of band 3 is an inhibitor when included in the binding assay. In addition, this peptide inhibits the catalytic activity of recombinant P. falciparum aldolase when assayed in a buffer system devoid of anions such as chloride or phosphate. The band 3-derived peptides compete with the aldolase substrate fructose-1,6-diphosphate for binding, suggesting that both reagents have a high affinity for the substrate pocket. A similar sequence motif exists in P. falciparum actin II. A 19-residue peptide corresponding to this sequence is also an inhibitor which could suggest that the P. falciparum aldolase can associate with the cytoskeleton of the parasite or of the host.
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PMID:Expression, purification, biochemical characterization and inhibition of recombinant Plasmodium falciparum aldolase. 220 32

Rabbit skeletal muscle and liver fructose 1,6-diphosphate aldolases autophosphorylate in the presence of inorganic phosphate at physiological and alkaline pH. ATP as well as nonhydrolyzable ATP analogues inhibits autophosphorylation. Autophosphorylation of aldolases abolishes catalytic activity, which is restored upon treatment with alkaline phosphatase. Limited proteolysis of aldolase preferentially hydrolyzes the COOH terminus and liberates a phosphorylated peptide. Treatment of rabbit aldolases with carboxypeptidase, which liberates the COOH terminal residue Tyr 363, although modifying catalytic activity does not affect autophosphorylation. Amino acid analyses are consistent with results of autophosphorylation of the COOH terminus showing residue His 361 in muscle aldolase and Tyr 361 in liver aldolase. Phosphate lability in acid pH by phosphorylated muscle aldolase but not by phosphorylated liver aldolase corroborates the amino acid assignment. Autophosphorylation of the aldolases in the crystalline state is consistent with an intramolecular mechanism. The pH dependence of autophosphorylation being dependent on the enzyme's physical state (soluble or crystalline) is not inconsistent with crystallization stabilizing a conformer having different amino acid pka values and/or reactivities than those of the soluble state.
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PMID:Inactivation of mammalian fructose diphosphate aldolases by COOH terminus autophosphorylation. 227 41

Skeletal muscle triads are possessing the whole set of enzymes of the phosphatidylinositol (PI)-linked signal generating pathway, PI-kinase, PI(4)P-kinase, and PI(4,5)P2-phospholipase C (PLC). The activities of these enzymes are comparable to those found in other cell types for which a functional role of the PI-pathway in intracellular signal transduction has been established. For skeletal muscle an unequivocal function and an initiating signal for Ins(1,4,5)P3-liberation is still unknown. However, the observed Ca-dependency of PLC activity suggests that here Ins(1,4,5)P3 production is a consequence rather than a cause of increasing cytosolic Ca2+. Recently, the glycolytic enzyme aldolase, whose activity can be modulated by inositol polyphosphates, has been localized in the triadic structure. The enzyme which has a high affinity to Ins(1,4)P2, Ins(1,4,5)P3 and Ins(1,3,4,5)P4, seems to be compartmentalized to the junctional foot structure from which it is released upon binding of these molecules. This phenomenon could reflect a capability for regulation of the glycolytic flux even for aldolase, especially if a non steady-state situation in the junctional gap is considered. Meanwhile we have accumulated evidence for the operation of a partial glycolytic sequence in the junctional region established by the enzymes aldolase, glyceraldehyde-3-P (GAP) dehydrogenase and phosphoglycerate kinase. This system is able to produce ATP upon oxidation of GAP and could be, because of the inositol polyphosphate-sensing abilities of aldolase, a target for the membrane associated PI-pathway. The ATP production is however transient which indicates the coupling to an ATP hydrolyzing reaction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relation of phosphatidylinositol metabolism to glycolytic pathway in skeletal muscle membranes. 228 42

In recent years, evidence has been accumulating that metabolic pathways are organized in vivo as multienzyme clusters. Affinity electrophoresis proves to be an attractive in vitro method to further evidence specific associations between purified consecutive enzymes from the glycolytic pathway on the one hand, and from the citric acid cycle on the other hand. Our results support the hypothesis of cluster formation between the glycolytic enzymes aldolase, glyceraldehydephosphate dehydrogenase, and triosephosphate isomerase, and between the cycle enzymes fumarase, malate dehydrogenase, and citrate synthase. A model is presented to explain the possibility of regulation of the citric acid cycle by varying enzyme-enzyme associations between the latter three enzymes, in response to changing local intramitochondrial ATP/ADP ratios.
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PMID:Clustering of sequential enzymes in the glycolytic pathway and the citric acid cycle. 239 1

The effect of N-methyl-N-nitrosourea (MNU) on the activity of cytoplasmic and reversibly bound to subcellular structures liver aldolase was studied. In vitro, the activity of aldolase purified from rabbit muscles is inhibited by MNU by 70-80% relative to fructose-1,6-diphosphate and by 50-60% relative to fructose-1-phosphate. These substrates and the competitive inhibitor ATP do not protect the enzyme against the inactivation by MNU. MNU inhibits the activity of cytoplasmic aldolase by 30-40% and 20% 2-24 hours after a single injection (80 mg/kg) in vivo. The enzyme affinity for fructose-1,6-diphosphate is markedly decreased (2-fold). Activation of cytoplasmic aldolase relative to both substrates, which is especially well-pronounced with fructose-1-phosphate after inhibition of the enzyme activity, was observed. The enzyme activity relative to both substrates was found to increase in the mitochondrial and nuclear fractions within 48 hours. MNU has no effect on the activity of aldolase bound to microsomes. MNU influences the aldolase binding to organelle membranes. MNU injections at early periods (2-168 hours) accounts for the differences in the kinetic properties of cytoplasmic and reversibly bound to subcellular structures liver aldolase. These changes persist within 168 hours after MNU administration and may result in disturbances in cell metabolism as well as in the regulation of metabolic pathways, such as glycolysis and gluconeogenesis.
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PMID:[Liver aldolase as a possible target for the action of N-methyl-N-nitrosourea]. 275 67

The incubation of human platelets with methylglyoxal and glucose produces a rapid transformation of the ketoaldehyde to D-lactate by the glyoxalase system and a partial reduction in GSH. Glucose utilization is affected at the level of the glycolytic pathway. No effect of the ketoaldehyde on glycogenolysis and glucose oxidation through the hexose monophosphate shunt was demonstrated. Phosphofructokinase, fructose 1,6 diphosphate (F1, 6DP) aldolase, glyceraldehyde 3-phosphate dehydrogenase and 3-phosphoglycerate mutase were mostly inhibited by methylglyoxal. A decrease in lactate and pyruvate formation and an accumulation of some glycolytic intermediates (fructose 1,6 diphosphate, dihydroxyacetone phosphate, 3-phosphoglycerate) was observed. Moreover methylglyoxal induced a fall in the metabolic ATP concentration. Since methylglyoxal is an intermediate of the glycolytic bypass system from dihydroxyacetone phosphate to D-lactate, it may be assumed that ketoaldehyde exerts a regulating effect on triose metabolism.
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PMID:Inhibition of the glycolytic pathway by methylglyoxal in human platelets. 275 37

Pyridoxal kinase displays high catalytic activity in the presence of metallothionein. The apoprotein of metallothionein as well as the peptide LYS-CYS-THR-CYS-CYS-ALA exert a strong inhibitory effect upon pyridoxal kinase by sequestering free Zn ions. Several steps intervene in the process of pyridoxal kinase activation, i.e. binding of Zn ions by ATP and interaction of Zn-ATP with the enzyme; but direct interaction between metallothionein and pyridoxal kinase (protein association) could not be detected by emission anisotropy measurements. Since the concentration of free Zn++ in mammalian tissues is lower than 10(-9)M, it is postulated that the concentration of metallothionein regulates the catalytic activity of pyridoxal kinase. The mechanism of reconstitution of the metalloenzyme yeast aldolase in the presence of metallothionein was also investigated.
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PMID:Modulation of the catalytic activity of pyridoxal kinase by metallothionein. 284 38

1. Aldolases were isolated from the ordinary muscle of red sea bream Pagrus major, Pacific mackerel Scomber japonicus, and carp Cyprinus carpio by ammonium sulfate fractionation, followed by ion-exchange chromatography on DEAE-cellulose and CM-Sepharose CL-6B columns, and examined for enzymatic properties. 2. The aldolases showed the highest activity in a pH range from 6.8-7.8 Km values for fructose-1,6-bisphosphate ranged from 0.025-0.10 mM. 3. Irrespective of fish species, aldolase activity was inhibited by ATP, ADP, and AMP. ATP showed the strongest inhibition and was competitive with fructose-1,6-bisphosphate. 4. The aldolases did not require divalent metal ions for activation and were completely inhibited at 0.1 mM Cu2+. 5. Thermal inactivation of the enzymes was of the first-order reaction. Red sea bream, Pacific mackerel and carp enzymes lost the activity by 50% when incubated at 50 degrees C for 8, 14 and 23 min, respectively.
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PMID:Enzymatic properties of fish muscle aldolase. 292 47

Selected glycolytic enzymes (including phosphoglucose isomerase, aldolase, glyceraldehyde phosphate dehydrogenase, enolase, pyruvate kinase and lactate dehydrogenase), as well as glycogen phosphorylase, creatine kinase, and adenylate kinase, bound to phosphofructokinase immobilized on an agarose gel. The affinity of phosphofructokinase to these various proteins differed, with phosphorylase exhibiting the strongest binding. Binding was reversed either by: (1) elution with high-ionic-strength buffer (0.4 M KCl); (2) the addition of a 5-10 mM concentration of ATP; or (3) high concentrations of fructose 6-phosphate (5 mM).
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PMID:Interaction of immobilized phosphofructokinase with soluble muscle proteins. 293 35

We have developed a method for the simultaneous purification of hexokinase, glucosephosphate isomerase, phosphofructokinase, fructose-1,6-bisphosphate aldolase, triosephosphate isomerase, D-glyceraldehyde-phosphate dehydrogenase, phosphoglycerate kinase, glycerol-3-phosphate dehydrogenase and glycerol kinase from Trypanosoma brucei in yields varying over 8-55%. Crude glycosomes were prepared by differential centrifugation of cell homogenates. Subsequent hydrophobic interaction chromatography on phenyl-Sepharose resulted in six pools containing various mixtures of enzymes. These pools were processed via affinity chromatography (immobilized ATP), hydrophobic interaction chromatography (octyl-Sepharose) and ion-exchange chromatography (CM- and DEAE-cellulose) which resulted in the purification of all nine enzymes. The native enzyme and subunit molecular masses, as determined by gel filtration and gel electrophoresis under denaturing conditions, were compared with those of their homologous counterparts from other organisms. Trypanosomal hexokinase is a hexamer and differs in subunit composition from the mammalian enzymes (monomers) as well as in subunit size (51 kDa versus 96-100 kDa, respectively). Phosphofructokinase only differs in subunit size (51 kDa for T. brucei versus 80-90 kDa for mammals) but had identical subunit composition (tetrameric). The others all have the same subunit composition as their mammalian counterparts. Except for triosephosphate isomerase, all Trypanosoma enzymes have subunits which are 1-5 kDa larger in size. Together these nine enzymes contribute 3.3 +/- 1.6% to the total cellular protein of T. brucei and at least 90% to the total glycosomal protein. A comparison of calculated intraglycosomal concentrations of the enzymes with the glycosomal metabolite concentrations shows that in the case of aldolase, glyceraldehyde-phosphate dehydrogenase and phosphoglycerate kinase, the concentration of active sites is of the same order of magnitude as that of their reactants. A common feature of the glycosomal glycolytic enzymes (with the exception of glucosephosphate isomerase) is that they are highly basic proteins with pI values between 8.8 and 10.2, values which are 1-4 higher than in the case of their mammalian cytosolic counterparts and 3-6 higher than in the case of the various unicellular organisms. It is suggested that both the larger subunit size and the basic character of the T. brucei glycolytic proteins are involved in the routing of the enzymes from their site of biogenesis (the cytosol) towards their site of action (the glycosome).
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PMID:Glycolytic enzymes of Trypanosoma brucei. Simultaneous purification, intraglycosomal concentrations and physical properties. 294 90

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