EC:4.1.1.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.1.6 (CAD)
4,420 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Patients with typical effort angina have been considered to have normal myocardial metabolism at bodily rest (24). In contrast to this, the present study demonstrated, even in resting asymptomatic CAD patients, a decreased myocardial uptake of FFA, independent of arterial levels and probably reflecting a decreased capacity for FFA oxygenation. This was compensated for by increased aerobic, and in some cases anaerobic, carbohydrate utilization. Further more, there was increased alanine release and glutamate uptake, related to, and perhaps of importance for the maintenance of increased carbohydrate breakdown. The altered myocardial substrate preference related to the severity of ischemic disease, indicates a metabolic adaptation induced by chronic myocardial ischemia in CAD patients.
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PMID:Myocardial substrate utilization and amino acid metabolism in chronic coronary artery disease. 343 81

The trifunctional protein CAD, which contains the first three enzyme activities of pyrimidine nucleotide biosynthesis (carbamyl phosphate synthetase II, aspartate transcarbamylase and dihydro-orotase), is phosphorylated stoichiometrically by cyclic AMP-dependent protein kinase. Phosphorylation activates the ammonia-dependent carbamyl phosphate synthetase activity of the complex by reducing the apparent Km for ATP. This effect is particularly marked in the presence of the allosteric feedback inhibitor, UTP, when the apparent Km is reduced by greater than 4-fold. Inhibition by physiological concentrations of UTP is substantially relieved by phosphorylation. Cyclic AMP-dependent protein kinase phosphorylates two serine residues on the protein termed sites 1 and 2, and the primary structures of tryptic peptides containing these sites have been determined: Site 1: Arg-Leu-Ser(P)-Ser-Phe-Val-Thr-Lys Site 2: Ile-His-Arg-Ala-Ser(P)-Asp-Pro-Gly-Leu-Pro-Ala-Glu-Glu-Pro-Lys During the phosphorylation reaction, activation of the carbamyl phosphate synthetase shows a better correlation with occupancy of site 1 rather than site 2. Both phosphorylation and activation can be reversed using purified preparations of the catalytic subunits of protein phosphatases 1- and -2A, and inactivation also correlates better with dephosphorylation of site 1 rather than site 2. We believe this to be the first report that a key enzyme in nucleotide biosynthesis is regulated in a significant manner by reversible covalent modification. The physiological role of this phosphorylation in the stimulation of cell proliferation by growth factors and other mitogens is discussed.
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PMID:Phosphorylation and activation of hamster carbamyl phosphate synthetase II by cAMP-dependent protein kinase. A novel mechanism for regulation of pyrimidine nucleotide biosynthesis. 409 95

The process of stereolithography, which automatically fabricates plastic models from designs created in certain computer-aided design programs, has been applied to the production of accurate plastic molecular models. Atomic coordinates obtained from quantum mechanical calculations and from neutron diffraction data were used to locate spheres in the I-DEAS CAD program with radii proportional to the appropriate van der Waals radii. The sterolithography apparatus was used to build the models using a photosensitive liquid resin, resulting in hard plastic models that accurately represent the computed or experimental input structures. Three examples are given to illustrate how the models can be used to interpret experimental structure-activity data for systems of biological importance or host-guest chemistry: (1) Interpretation of kinetic data for the formation of a stable blocking complex between amiloride analogs and the epithelial sodium channel, (2) interpretation of binding and neural activity data for the interaction of certain amino acids and their analogs at the L-alanine taste receptor of the channel catfish, and (3) interpretation of shape selectivity and rate acceleration in cyclodextrin catalysis using models of the neutron diffraction structure of beta-cyclodextrin and of the transition state for the cleavage of phenyl acetate by the secondary hydroxyl oxygen of beta-cyclodextrin.
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PMID:The application of stereolithography to the fabrication of accurate molecular models. 761 88

Ser1406 of the allosteric region of the hamster CAD enzyme, carbamyl phosphate synthetase II (CPSase), is known to be phosphorylated in vitro by cAMP-dependent protein kinase (PKA). Metabolic labeling experiments described here demonstrate that CAD is phosphorylated in somatic cells in culture. Phosphorylation is stimulated by treating cells with 8-bromo-cAMP, a PKA activator. The stimulation is essentially prevented by pretreatment with H-89, a PKA specific inhibitor. Substitution of Ser1406 with alanine results in an enzyme with kinetics and allosteric regulation indistinguishable from unsubstituted CAD. However, substitution to glutamic acid increases CPSase activity by reducing the apparent Km (ATP). The UTP concentration required to give 50% inhibition is increased rendering this altered enzyme significantly less sensitive to feedback inhibition, but allosteric activation by PRPP is unaffected. While these data do not prove that Ser1406 is phosphorylated in vivo, they do indicate that a specific alteration at this residue can affect allosteric regulation.
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PMID:Site-directed substitution of Ser1406 of hamster CAD with glutamic acid alters allosteric regulation of carbamyl phosphate synthetase II. 921

High serum cholesterol and LDL-cholesterol level and high blood pressure are risk factors for cardiovascular disease (CVD). CVD risk factors usually occur simultaneously, fact that enhance personal and population CVD risk. Data from interventional studies suggest that reducing CAD risk factors significantly lowered risk of CAD. Fluvastatin, a statine, has been used in hypercholesterolemic populations. We report on a clinical trial (random selection) of fluvastatin vs. placebo on hipercholesterolemic patients (total cholesterol > or = 240 mg/dl and/or low-density lipoprotein cholesterol (LDL-C) > or = 160 mg/dl) on treatment of mild to moderate high blood pressure. Forty Latin-American patients were randomized to placebo or 40 mg per day for 8 weeks of fluvastatin. Fluvastatin patients had a clinical and statistical significant reduction on total cholesterol (27.7%) and LDL-C (39.1%) Vs a non-significant reduction on the placebo group (6.9% total cholesterol and 9.1% LDL-C). One patient had elevated aspartate (AST) and alanine (ALT) aminotransferases (three times the local laboratory upper normal levels) associated with a chronic alcohol consumption, reverted 6 weeks after protocol completion. There was no important secondary effects; also there was no differences on this regard between placebo and verum group. Fluvastatin proved to be safe and well tolerated for this group of patients under a wide range of high blood pressure treatment.
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PMID:[Clinical trial with sodium fluvastatin in patients with hypercholesterolemia associated with mild and moderate essential arterial hypertension]. 929 41

Aspartate transcarbamoylase (ATCase; EC 2.1.3.2) is one of three enzymatic domains of CAD, a protein whose native structure is usually a hexamer of identical subunits. Alanine substitutions for the ATCase residues Asp-90 and Arg-269 were generated in a bicistronic vector that encodes a 6-histidine-tagged hamster CAD. Stably transfected mammalian cells expressing high levels of CAD were easily isolated and CAD purification was simplified over previous procedures. The substitutions reduce the ATCase V(max) of the altered CADs by 11-fold and 46-fold, respectively, as well as affect the enzyme's affinity for aspartate. At 25 mM Mg(2+), these substitutions cause the oligomeric CAD to dissociate into monomers. Under the same dissociating conditions, incubating the altered CAD with the ATCase substrate carbamoyl phosphate or the bisubstrate analogue N-phosphonacetyl-L-aspartate unexpectedly leads to the reformation of hexamers. Incubation with the other ATCase substrate, aspartate, has no effect. These results demonstrate that the ATCase domain is central to hexamer formation in CAD and suggest that the ATCase reaction mechanism is ordered in the same manner as the Escherichia coli ATCase. Finally, the data indicate that the binding of carbamoyl phosphate induces conformational changes that enhance the interaction of CAD subunits.
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PMID:Substitutions in the aspartate transcarbamoylase domain of hamster CAD disrupt oligomeric structure. 1061 77

In noradrenergic progenitors, Phox2a mediates cell cycle exit and neuronal differentiation by inducing p27(Kip1) transcription in response to activation of the cyclic AMP (cAMP) pathway. The mechanism of cAMP-mediated activation of Phox2a is unknown. We identified a cluster of phosphoserine-proline sites in Phox2a by mass spectrometry. Ser206 appeared to be the most prominent phosphorylation site. A phospho-Ser206 Phox2a antibody detected dephosphorylation of Phox2a that was dependent on activation of the cAMP pathway, which occurred prior to neuronal differentiation of noradrenergic CAD cells. Employing serine-to-alanine and serine-to-aspartic acid Phox2a substitution mutants expressed in inducible CAD cell lines, we demonstrated that the transcriptional activity of Phox2a is regulated by two sequential cAMP-dependent events: first, cAMP signaling promotes dephosphorylation of Phox2a in at least one site, Ser206, thereby allowing Phox2a to bind DNA and initiate p27(Kip1) transcription; second, following dephosphorylation of the phosphoserine cluster (Ser202 and Ser208), Phox2a becomes phosphorylated by protein kinase A (PKA) on Ser153, which prevents association of Phox2a with DNA and terminates p27(Kip1) transcription. This represents a novel mechanism by which the same stimulus, cAMP signaling, first activates Phox2a by dephosphorylation of Ser206 and then, after a built-in delay, inactivates Phox2a via PKA-dependent phosphorylation of Ser153, thereby modulating onset and duration of p27(Kip1) transcription.
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PMID:Time-dependent activation of Phox2a by the cyclic AMP pathway modulates onset and duration of p27Kip1 transcription. 1963 7

The anti-epileptic drug (R)-lacosamide ((2R)-2-(acetylamino)-N-benzyl-3-methoxypropanamide (LCM)) modulates voltage-gated sodium channels (VGSCs) by preferentially interacting with slow inactivated sodium channels, but the observation that LCM binds to collapsin response mediator protein 2 (CRMP-2) suggests additional mechanisms of action for LCM. We postulated that CRMP-2 levels affects the actions of LCM on VGSCs. CRMP-2 labeling by LCM analogs was competitively displaced by excess LCM in rat brain lysates. Manipulation of CRMP-2 levels in the neuronal model system CAD cells affected slow inactivation of VGSCs without any effects on other voltage-dependent properties. In silico docking was performed to identify putative binding sites in CRMP-2 that may modulate the effects of LCM on VGSCs. These studies identified five cavities in CRMP-2 that can accommodate LCM. CRMP-2 alanine mutants of key residues within these cavities were functionally similar to wild-type CRMP-2 as assessed by similar levels of enhancement in dendritic complexity of cortical neurons. Next, we examined the effects of expression of wild-type and mutant CRMP-2 constructs on voltage-sensitive properties of VGSCs in CAD cells: 1) steady-state voltage-dependent activation and fast-inactivation properties were not affected by LCM, 2) CRMP-2 single alanine mutants reduced the LCM-mediated effects on the ability of endogenous Na(+) channels to transition to a slow inactivated state, and 3) a quintuplicate CRMP-2 alanine mutant further decreased this slow inactivated fraction. Collectively, these results identify key CRMP-2 residues that can coordinate LCM binding thus making it more effective on its primary clinical target.
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PMID:In silico docking and electrophysiological characterization of lacosamide binding sites on collapsin response mediator protein-2 identifies a pocket important in modulating sodium channel slow inactivation. 2053 11

Pyrimidine biosynthetic pathway enzymes constitute an important target for the development of antitumor drugs. To understand the role of binding mechanisms underlying the inborn errors of pyrimidine biosynthetic pathway, structure and function of enzymes have been analyzed. Pyrimidine biosynthetic pathway is initiated by CAD enzymes that harbor the first three enzymatic activities facilitated by Carbamoyl Phosphate Synthetase (CPSase), Aspartate Transcarbamoylase (ATCase) and Dihydroorotase (DHOase). While being an attractive therapeutic target, the lack of data driven us to study the CPSase (CarA and CarB) and its mode of binding to ATCase and DHOase which are the major limitation for its structural optimization. Understanding the binding mode of CPSase, ATCase and DHOase could help to identify the potential interface hotspot residues that favor the mechanism behind it. The mechanistic insight into the CAD complexes were achieved through Molecular modeling, Protein-Protein docking, Alanine scanning and Molecular dynamics (MD) Studies. The hotspot residues present in the CarB region of carboxy phosphate and carbamoyl phosphate synthetic domains are responsible for the assembly of CAD (CPSase-ATCase-DHOase) complexes. Overall analysis suggests that the identified hotspot residues were confirmed by alanine scanning and important for the regulation of pyrimidine biosynthesis. MD simulations analysis provided the prolonged stability of the interacting complexes. The present study reveals the novel hotspot residues such as Glu134, Glu147, Glu154, Asp266, Lys269, Glu274, Asp333, Trp459, Asp526, Asp528, Glu533, Glu544, Glu546, Glu800, Val855, Asp877, Tyr884 and Gln919 which could be targeted for structure-based inhibitor design to potentiate the CAD mediated regulation of aggressive tumors.Communicated by Ramaswamy H. Sarma.
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PMID:Structural insights on binding mechanism of CAD complexes (CPSase, ATCase and DHOase). 3233 52