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

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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pyruvate dehydrogenase deficiency is one of the most common causes of encephalopathy associated with lactic acidosis and is known to account for congenital lactic acidosis, recurrent ataxia, and infantile Leigh syndrome. Hitherto, however, peripheral neuropathy has not been regarded as a presenting symptom of pyruvate dehydrogenase deficiency. Here, we report on a boy who presented peripheral neuropathy with severe limb hypotonia, absent deep-tendon reflexes, and reduced motor nerve conduction velocities at 8 months of age. Persistent hyperpyruvicemia with normal lactate/pyruvate molar ratios in plasma were highly suggestive of a pyruvate dehydrogenase deficiency, and the determination of pyruvate dehydrogenase activity in circulating lymphocytes led to the diagnosis of pyruvate decarboxylase (PDH-E1) deficiency in the proband. Based on this observation, we suggest that pyruvate dehydrogenase deficiency should be considered in the diagnosis of peripheral neuropathy in infancy, especially when associated with persistent hyperpyruvicemia, normal lactate/pyruvate molar ratios in plasma, and recurrent episodes of drowsiness and hypotonia of unknown origin.
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PMID:Leigh syndrome: pyruvate dehydrogenase defect. A case with peripheral neuropathy. 815 Oct 84

The present study investigated the effects of chronic food restriction (achieved by limiting access to food to 2 h daily for up to 8 weeks) on the activity of the active form of pyruvate dehydrogenase (PDHa) in liver. Accelerated and exaggerated activation of hepatic PDH in response to a meal, previously demonstrated to occur within 10 days of food restriction, was demonstrated to persist for 4 and 8 weeks of food restriction, despite a food intake of only 50-60% of controls. Activation of hepatic PDH during feeding in rats subjected to food restriction for 4 weeks was dependent on continued food intake. As a consequence, hepatic PDHa activities in food-restricted rats were suppressed relative to controls for 19 h of the 24 h daily cycle. Curve-fitting by second-order polynomial regression analysis demonstrated a significant positive correlation between hepatic PDHa activity and lipogenic rate over the range of PDHa activities observed during the 2 h feeding period. Increased lipogenesis during feeding in food-restricted rats was not at the expense of hepatic glycogen synthesis or deposition; measurement of concurrent rates of glycogenesis and lipogenesis revealed simultaneous flux through both pathways, but specific activation of lipogenesis. The accelerated re-activation of hepatic PDH observed within 1 h of feeding in rats subjected to 4 weeks of food restriction was facilitated by a failure of the 22 h interprandial fasting period to induce a stable increase in hepatic PDH kinase activity. The present study indicates differential regulation of hepatic PDH kinase activity during periods of food withdrawal between food-restricted rats and starved/re-fed control rats. Such regulation occupies a critical role in determining the rate of activation of hepatic PDH during feeding. In turn, increased activity of hepatic PDHa during feeding in food-restricted rats bears a close positive relationship with hepatic lipogenic rate.
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PMID:The regulation of hepatic carbon flux by pyruvate dehydrogenase and pyruvate dehydrogenase kinase during long-term food restriction. 825 Aug 46

Expression of the PDA1 gene encoding the E1 alpha subunit of the pyruvate dehydrogenase complex (PDH complex) and activity of the complex were investigated in cells grown under several conditions. Comparable amounts of PDA1 mRNA and E1 alpha subunit were detected in cells from batch and chemostat cultures grown on various carbon sources, showing constitutive expression of PDA1 at the transcriptional and translational levels. Induction of the regulatory GCN4 mechanism upon histidine starvation, using the anti-metabolite 3-amino-1,2,4-triazole, increased the levels of PDA1 mRNA by approximately 40%. However, a corresponding increase of E1 alpha concentration or activity of the PDH complex could not be detected. Hence, expression of the PDA1 gene is only regulated to a small extent, if at all, by the GCN4 mechanism. Contrary to the constant levels of PDA1 mRNA and E1 alpha subunit in both batch and chemostat cultures, the specific activity of the PDH complex varied with the culture conditions. The activity of the PDH complex in chemostat cultures was approximately two-threefold higher than in batch cultures grown on the same carbon sources. Overproduction of the E1 alpha subunit in batch cultures resulted in a two-threefold increase in the activity of the PDH complex. Taken together, these results indicate that the activity of the PDH complex is mainly regulated by post-translational modification of the E1 alpha subunit. Expression of PDA1 and activity of the PDH complex were also detected in cultures grown under conditions where no physiological significance of the PDH complex was expected, i.e. during anaerobic growth on glucose or aerobic growth on ethanol. Apparently, the switch from oxidative growth to fermentation occurs without much effect on the PDH complex. These observations suggest that the PDH complex has an alternative function besides sugar catabolism.
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PMID:Regulation of the PDA1 gene encoding the E1 alpha subunit of the pyruvate dehydrogenase complex from Saccharomyces cerevisiae. 826 28

The amino acid sequences of four thiamine pyrophosphate-requiring enzymes were aligned with the published amino acid sequence of the transketolase of Hansenula polymorpha. Sequences of the combined alpha and beta subunits of the E1 enzyme of the pyruvate dehydrogenase complexes of Homo sapiens and Bacillus stearothermophilus aligned well with the transketolase while the E1 of the pyruvate dehydrogenase complex of Escherichia coli aligned easily provided a non-aligning segment of 77 amino acids was omitted. The non-acetylating pyruvate decarboxylase of Saccharomyces cerevisiae could only be aligned if the sequence was cut in two with the C-terminus corresponding to the N-terminus of the other TPP-dependent enzymes. Using the published 2.5 A resolution of the X-ray crystal structure of Saccharomyces cerevisiae transketolase as a template we show that a hydrophobic region of the beta-subunit of the PDH E1 alpha beta enzymes likely contains a binding site for the thiazolium ring of TPP and key motifs are retained in common by all the TPP-dependent enzymes considered, which are essential for catalysis.
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PMID:The relationships between transketolase, yeast pyruvate decarboxylase and pyruvate dehydrogenase of the pyruvate dehydrogenase complex. 834 39

Despite significant increases in circulating concentrations of lipid fuels (triacylglycerol, non-esterified fatty acids (NEFA) and ketone bodies) in late-pregnant rats sampled in the fed (absorptive) state, cardiac and skeletal muscle active pyruvate dehydrogenase (PDHa) activities remained comparable with those observed in fed, age-matched virgin controls. Cardiac PDHa activity was suppressed in response to acute (6 h) starvation in late-pregnant (as well as virgin) rats: this inactivation was opposed by inhibition of mitochondrial long-chain FA oxidation. Starvation (6 h) also led to PDH inactivation in skeletal muscles of late-pregnant, but not virgin, rats. Starvation for 24 h led to further suppression of cardiac PDHa activity and was associated with significant increases in PDH kinase activities in both virgin and late-pregnant rats. Late pregnancy did not itself influence cardiac PDH kinase activity.
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PMID:Control of muscle pyruvate oxidation during late pregnancy. 847 40

Glucose utilization indices (GUI) were measured in vivo in conjunction with active pyruvate dehydrogenase complex (PDH(a) and glycogen synthase (GS) activities in fast-twitch skeletal muscles [extensor digitorum longus (EDL), tibialis anterior and gastrocnemius] of late-pregnant rats and age-matched virgin control rats in the fed state, after 24 h starvation and at 2 h after re-feeding with standard laboratory chow ad libitum after 24 h starvation. As demonstrated previously [Holness and Sugden (1990) Biochem. J 277, 429-433], GUI values of fast-twitch skeletal muscles of virgin rats were low in the fed ad libitum and the 24 h-starved states, but dramatically increased after subsequent chow re-feeding. GUI values of fast-twitch skeletal muscles of late-pregnant rats were also low in the fed and starved states and were increased by re-feeding, but the increase in GUI values elicited by re-feeding was greatly attenuated. PDHa activities in EDL, tibialis anterior and gastrocnemius in the fed state were unaffected by late pregnancy, and skeletal-muscle PDHa activities were decreased after 24 h of starvation in both groups. Whereas re-feeding of virgin rats with standard diet for 2 h restored PDHa activities in fast-twitch skeletal muscles to values for rats continuously fed ad libitum, PDHa activities in fast-twitch skeletal muscles of late-pregnant rats, although increased in response to re-feeding, remained considerably less than the corresponding fed ad libitum values after 2 h of re-feeding. In contrast, neither skeletal-muscle GS re-activation nor rates of skeletal-muscle glycogen deposition after re-feeding were markedly affected by late pregnancy. The results are discussed in relation to the specific targeting of individual pathways of glucose disposal in fast-twitch skeletal muscles during re-feeding in late pregnancy.
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PMID:Changes in rates of glucose utilization and regulation of glucose disposal by fast-twitch skeletal muscles in late pregnancy. 850 77

The effects of L-carnitine on 14CO2 release from [1-14C]pyruvate oxidation (an index of pyruvate dehydrogenase activity, PDH), [2-14C]pyruvate, and [6-14C]glucose oxidation (indices of the acetyl-CoA flux through citric acid cycle), and [U-14C]glucose (an index of both PDH activity and the flux of acetyl-CoA through the citric acid cycle), were studied using isolated rat cardiac myocytes. L-carnitine increased the release of 14CO2 from [1-14C]pyruvate, and decreased that of [2-14C]pyruvate in a time and concentration-dependent manner. At a concentration of 2.5 mM, L-carnitine produced a 50% increase of CO2 release from [1-14C]pyruvate and a 50% decrease from [2-14C]pyruvate oxidation. L-carnitine also increased CO2 release from [1-14C]pyruvate oxidation by 35%, and decreased that of [2-14C]pyruvate oxidation 30%, in isolated rat heart mitochondria. The fatty acid oxidation inhibitor, etomoxir, stimulated the release of CO2 from both [1-14]pyruvate and [2-14C]pyruvate. These results were supported by the effects of L-carnitine on the CO2 release from [6-14C]- and [U-14C]glucose oxidation. L-carnitine (5 mM) decreased the CO2 release from [6-14C]glucose by 37%, while etomoxir (50 microM) increased its release by 24%. L-carnitine had no effect on the oxidation of [U-14C]glucose. L-carnitine increased palmitate oxidation in a time- and concentration-dependent manner in myocytes. Also, it increased the rate of efflux of acetylcarnitine generated from pyruvate in myocytes. These results suggest that L-carnitine stimulates pyruvate dehydrogenase complex activity and enhances non-oxidative glucose metabolism by increasing the mitochondrial acetylcarnitine efflux in the absence of exogenous fatty acids.
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PMID:Stimulation of non-oxidative glucose utilization by L-carnitine in isolated myocytes. 859 97

Ranolazine has shown anti-anginal efficacy in humans and cardiac anti-ischaemic activity in models, but without affecting haemodynamics or baseline contraction. In isolated normoxic rat hearts, Langendorff-perfused for 30 min with 11 mM glucose, 3% albumin, and 0.4 mM or 0.8 mM palmitate, 20 microM ranolazine significantly increased active, dephosphorylated, pyruvate dehydrogenase (PDHa), but not with no palmitate or 1.2 mM palmitate. Dichloroactetate (DCA, 1 mM), a PDHa kinase inhibitor, significantly increased PDHa in hearts perfused with 0, 0.4 or 0.8 mM but not 1.2 mM palmitate. PDHa was significantly increased with 1.2 mM palmitate by DCA plus ranolazine, and additive effects were also seen at 0.8 mM palmitate. Activation of PDH by ranolazine and promotion of glucose oxidation offers a plausible means by which the drug may be anti-ischaemic nonhaemodynamically. Extensive studies with extracted enzymes and isolated rat heart mitochondria failed to demonstrate any effects of ranolazine on PDH kinase or phosphatase, or on PDH catalytic activity, whereas effects of other known effectors (such as DCA) were readily demonstrable, suggesting that ranolazine activates PDH indirectly. Further analyses of the hearts revealed that ranolazine reduced acetyl CoA content under all conditions where fatty acid was present, and +/- DCA which itself had little effect. In the absence of fatty acid, ranolazine and/or DCA raised acetyl CoA. In perfusions where octanoate (+/- albumin) replaced palmitate, ranolazine still decreased acetyl CoA, but not when acetate replaced palmitate. In octanoate-perfused hearts, the contents of the C4, C6 and C8 CoA esters were all increased by ranolazine. This is consistent with ranolazine causing an inhibition of fatty acid beta-oxidation leading to decreased acetyl CoA and activation of PDH.
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PMID:Ranolazine increases active pyruvate dehydrogenase in perfused normoxic rat hearts: evidence for an indirect mechanism. 872 66

A new class of compounds, the 2-oxo-3-alkynoic acids with a phenyl substituent at carbon 4 was reported by the authors as potent irreversible and mechanism-based inhibitors of the thiamin diphosphate- (ThDP-) dependent enzyme pyruvate decarboxylase [Chiu, C.-F., & Jordan, F. (1994) J. Org. Chem. 59, 5763-5766]. The method has been successfully extended to the synthesis of the 4-, 5-, and 7-carbon aliphatic members of this family of compounds. These three compounds were then tested on three ThDP-dependent pyruvate decarboxylases: the Escherichia coli pyruvate dehydrogenase multienzyme complex (PDHc) and its E1 (ThDP-dependent) component, pyruvate oxidase (POX, phosphorylating; from Lactobacillus plantarum),and pyruvate decarboxylase (PDC) from Saccharomycescerevisiae. All three enzymes were irreversibly inhibited by the new compounds. The 4-carbon acid is the best substrate-analog inactivator known to date for PDHc, more potent than either fluoropyruvate or bromopyruvate. The following conclusions were drawn from extensive studies with PDHc: (a) The kinetics of inactivation of PDH complexes and of resolved E1 by 2-oxo-3-alkynoic acids is time- and concentration-dependent. (b) The 4-carbon acid has a Ki 2 orders of magnitude stronger than the 5-carbon acid, clearly demonstrating the substrate specificity of PDHc. (c) The rate of inactivation of PDH complexes and of resolved E1 by 2-oxo-3-alkynoic acids is enhanced by the addition of ThDP and MgCl2. (d) Pyruvate completely protects E1 and partially protects PDHc from inactivation by 2-oxo-3-butynoic acid. (e) E1 but not E2-E3 is the target of inactivation by 2-oxo-3-butynoic acid. (f) Inactivation of E1 by 2-oxo-3-butynoic acid is accompanied by modification of 1.3 cysteines/E1 monomer. The order of reactivity with the 4-carbon acid was PDHc > POX > PDC. While the order of reactivity with PDHc and POX was 2-oxo-3-butynoic acid > 2-oxo-3-pentynoic acid > 2-oxo-3-heptynoic acid, the order of reactivity was reversed with PDC.
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PMID:2-Oxo-3-alkynoic acids, universal mechanism-based inactivators of thiamin diphosphate-dependent decarboxylases: synthesis and evidence for potent inactivation of the pyruvate dehydrogenase multienzyme complex. 920 55

The pyruvate dehydrogenase complex (PDHc) is a multienzyme complex consisting of three catalytic and two regulatory enzymes, as well as a less well defined subunit called protein X. PDHc deficiency is a common cause of congenital lactic acidosis. Most patients with PDH deficiency have a mutation in the alpha chain of the PDH E1 enzyme. Very few patients have been described in whom the basic defect of a PDH deficiency is situated in the X protein. We studied a boy with severe lactic acidosis and developmental delay in whom a deficiency of PDH activity led to further investigations. Immunochemical analysis with anti-PDHc antibodies demonstrated an absence of the X component. This report is the fourth family in which an abnormal protein X has been found. In cases with PDH deficiency where no mutation of the PDHE1 alpha gene is found, further investigations by means of immunoblotting with specific antibodies against the different subunits should be performed.
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PMID:Pyruvate dehydrogenase complex deficiency and absence of subunit X. 950 Dec 64


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