Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.7 (acetylcholinesterase)
 28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Various 4-arylthiomethyl-2-oxo-1,3-dioxole derivatives IIIa-o were synthesized. Their hydrolysis rates by arylesterase (EC 3.1.1.2) and cholinesterase (EC 3.1.1.8) in human serum were evaluated. Some of them were not hydrolyzed by cholinesterase, but were hydrolyzed easily by arylesterase. Among the substrates, sodium 4-((5-methyl-2-oxo-1,3-dioxol-4-yl)methylthio)benzenesulfonate (IIIg) was selected for its substrate reactivity toward arylesterase and its good water solubility. In addition, neither aliesterase (EC 3.1.1.1), acetylesterase (EC 3.1.1.6) nor cholesterol esterase (EC 3.1.1.13) hydrolyzed the compound. IIIg is thus concluded to be a specific substrate for arylesterase. Our assay system for serum arylesterase using IIIg can be readily applied to an automatic analyzer in the diagnosis of liver cirrhosis.
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PMID:2-Oxo-1,3-dioxoles as specific substrates for measurement of arylesterase activity. 193 62

The structure and some functional sites of human milk bile salt activated lipase (BAL) were studied by cDNA cloning and chemical analysis of the enzyme. Eighteen cDNA clones of human BAL were identified from lactating human breast cDNA libraries in lambda gt11 and lambda gt10 with antibody and synthetic oligonucleotides as probes. The sequence of four clones was sufficient to construct a 3018-bp BAL cDNA structure. This sequence codes for an open reading frame of 742 amino acid residues. There is a putative signal sequence of 20 residues which is followed by the amino-terminal sequence of BAL, and the mature BAL contains 722 amino acid residues. The cDNA sequence also contains a 678-base 5'-untranslated sequence, a 97-base 3'-untranslated region, and a 14-base poly(A) tail. The sequence of a 1.8-kbp insert of clone G10-4A differs from that of the other cDNA in that it contains a deletion of 198 bases (1966-2163) corresponding to 66 amino acid residues. By use of BAL cDNA as probe, it was found that the major molecular species of BAL mRNA in human mammary gland HBL-100 cells had a size of 2.9 kb and two minor species had sizes of 3.8 and 5.1 kb by Northern blot analyses. The deduced BAL protein structure contains in the carboxyl-terminal region 16 repeating units of 11 amino acids each. The repeating units have the basic structure Pro-Val-Pro-Pro-Thr-Gly-Asp-Ser-Gly-Ala-Pro with only minor substitutions. The amino acid sequence of human BAL is related to that of pancreatic lysophospholipase, cholesterol esterase, cholinesterase, acetylcholinesterase, and thyroglobulin. Ten of the 14 cyanogen bromide fragments of diisopropyl fluorophosphate inhibited human milk BAL were isolated, determined for N-terminal sequences, analyzed for amino sugars, and tested for some functional properties. These chemical studies established that the active site of human milk BAL is located at serine-194, the N-glycosylation site is present at asparagine-187, the O-glycosylation region is in the 16 repeating units near the C-terminus, and the heparin binding domain is in the N-terminal region. We have also determined the location of disulfide bridges as Cys64-Cys80 and Cys246-Cys257. The cyanogen bromide cleavage and the partial sequencing of CNBr peptides also confirmed the location of methionines in the polypeptide chain as well as the deduced cDNA sequence of BAL.
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PMID:Structure of human milk bile salt activated lipase. 198 41

The histidine residue essential for the catalytic activity of pancreatic cholesterol esterase (carboxylester lipase) has been identified in this study using sequence comparison and site-specific mutagenesis techniques. In the first approach, comparison of the primary structure of rat pancreatic cholesterol esterase with that of acetylcholinesterase and cholinesterase revealed two conserved histidine residues located at positions 420 and 435. The sequence in the region around histidine 420 is quite different between the three enzymes. However, histidine 435 is located in a 22-amino acid domain that is 47% homologous with other serine esterases. Based on this sequence homology, it was hypothesized that histidine 435 is the histidine residue essential for catalytic activity of cholesterol esterase. The role of His435 in the catalytic activity of pancreatic cholesterol esterase was then studied by the site-specific mutagenesis technique. Substitution of the histidine in position 435 with glutamine, arginine, alanine, serine, or aspartic acid abolished the ability of cholesterol esterase to hydrolyze p-nitrophenyl butyrate and cholesterol [14C]oleate. In contrast, mutagenesis of the histidine residue at position 420 to glutamine had no effect on cholesterol esterase enzyme activity. The results of this study strongly suggested that histidine 435 may be a component of the catalytic triad of pancreatic cholesterol esterase.
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PMID:Site-specific mutagenesis of an essential histidine residue in pancreatic cholesterol esterase. 199 99

We report the isolation and nucleotide sequence of the cDNA for carboxyl ester lipase (CEL) from human pancreas. CEL was purified from human pancreas and microsequence analysis was performed on the amino-terminal and internal peptides. Peptide sequence was used to design oligonucleotide probes for screening a human pancreas cDNA library. Partial length cDNAs for CEL were isolated from the library, and the 5' portion of the cDNA was obtained using the anchored polymerase chain reaction. The deduced amino acid sequence indicates that mature CEL contains 722 amino acids and is synthesized with a 20 amino acid leader peptide. The amino acid sequence is rich in proline (12.2%), with 68% of the proline residues occurring within the final 25% of protein length. This is due to the occurrence of a series of proline-rich tandem repeat units near the carboxyl terminus, and accounts for the previously observed species variation in CEL size and amino acid composition. The primary sequence of CEL shows strong similarity to members of the serine esterase family, including the identical G-E-S-A-G motif at the putative active site. A striking homology also occurs between CEL and acetylcholinesterase and cholinesterase, essential enzymes of the nervous system. Proteins with cholesteryl esterase activity have been detected in extra-pancreatic tissues including liver, intestine, kidney, aorta, macrophage, and in the milk of some species (human, gorilla, cat, dog), but not others (rat, cow). To clarify the structural relationships between these various esterases and CEL, we used the CEL cDNA to study expression in pancreas and liver. CEL mRNA was abundant in pancreas of human and rat, with the human CEL mRNA approximately 300 nucleotides larger than that from rat. CEL mRNA was not detected in human adult or fetal liver, nor in rat liver. These results indicate that CEL is not synthesized in significant amounts in liver, and suggest that the cholesterol esterase activity that has been described in liver may be due to a distinct enzyme, or may be derived from pancreas, as has been proposed for the cholesterol esterase activity in intestine.
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PMID:cDNA cloning of carboxyl ester lipase from human pancreas reveals a unique proline-rich repeat unit. 206 63

The gene encoding the rat pancreatic cholesterol esterase has been isolated and characterized. Analysis of overlapping genomic clones showed that the cholesterol esterase gene spans approximately 8 kb, containing 11 exons interrupted by 10 introns. The exons ranged in size from 83 to 201 bp except for the last exon, which was 548 bp in length. A TAAATA sequence was present at -31 nucleotides from the transcriptional initiation site. A putative pancreas-specific enhancer sequence was found at -90 bp upstream from the CAP site. Although cholesterol esterase shares three domains of similarity with cholinesterase and acetylcholinesterase, these domains were found to be localized in distinct exons of the cholesterol esterase gene. The organization of the cholesterol esterase gene suggests its divergent evolution with other members of the serine esterase gene family.
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PMID:Structure of the rat pancreatic cholesterol esterase gene. 206 57

The substrate specificity of lipoamidase, purified from the pig brain membrane with lipoyl 4-aminobenzoate (LPAB) as a substrate, was extensively studied. This single polypeptide was found to hydrolyse the bonding between amide, ester and peptide compounds. However, stringent structural requirements were found in the substrates, e.g. LPAB was hydrolysed, whereas biotinyl 4-aminobenzoate was not, as stated in our previous paper [Oizmui & Hayakawa (1990) Biochem. J. 266, 427-434]. The enzyme specifically recognized the whole molecular structure of the substrate, whereas it loosely recognized the bond structure of the substrate; e.g. the dipeptide Asp-Phe was not hydrolysed, whereas the methyl ester of Asp-Phe (aspartame) was. The exopeptidase activity was demonstrated by lipoamidase; however, longer peptides than the hexamer seemed not to be substrates. Lipoyl esters, which were electrically neutral, exhibited higher specificity with longer acyl groups. Molecular mass and molecular hydrophobicity (hydropathy) seemed to determine the substrate specificity. Lipoyl-lysine, acetylcholine and oligopeptides were hydrolysed at similar Km values; however, acetylcholine was hydrolysed at a velocity 100 times higher. Although many similar specificities were found between electric eel acetylcholinesterase and lipoamidase, distinctly different specificity was demonstrated with lipoyl compounds. The role of lipoamidase, which resides on the brain membrane and possesses higher specificity for hydrophobic molecules, remains to be elucidated.
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PMID:Lipoamidase is a multiple hydrolase. 222 21

A cDNA encoding human liver carboxylesterase and its gene were isolated. Nucleotide sequence analyses of the cDNA revealed that the predicted enzyme protein consists of 567 amino acids, including 18 amino acids of a putative signal peptide. Comparison of the deduced amino acid sequences of this enzyme with those of seven other carboxylesterases in various mammalian species, together with experimental data from several other laboratories, showed that these enzymes can be classified into three groups depending on the sequences at their carboxyl terminals and the presence or absence of one exon. A human carboxylesterase gene was found to span approximately 30 kb and to have 14 small exons. Alignments of this gene with those of human cholinesterase and rat cholesterol esterase indicated insertional sites at some introns and homologous amino acid sequences around them, although these genes have different numbers of exons. Thus the results supported the conclusion that these esterases evolved from a common ancestral gene.
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PMID:Molecular cloning and characterization of a human carboxylesterase gene. 840 73

The acidic amino acid residue required for the catalytic activity of rat pancreatic cholesterol esterase has been identified in this study by sequence comparison with other serine esterases and by site-directed mutagenesis experiments. The sequence comparison studies identified 3 acidic residues in homologous domains between cholesterol esterase, acetylcholinesterase, cholinesterase, and Geotrichum candida lipase that may potentially be the catalytic acidic residue in these proteins. The role of Glu78, Asp79, and Asp320 in the catalytic activity of rat cholesterol esterase was then addressed by mutagenesis and expression of the cDNA. Results showed that replacement of Glu78 or Asp79 with alanine has no effect on the ability of the cholesterol esterase to hydrolyze the artificial water-soluble substrate p-nitrophenyl butyrate. In contrast, the Asp320-->Ala320 substitution abolished the enzyme activity of the cholesterol esterase. The specific requirement of Asp320 for optimal enzyme activity was demonstrated by substitution of the aspartic acid with glutamic acid, thus retaining the charge unit at this position. The Asp320-->Glu320 substitution resulted in an enzyme that displayed normal interaction with bile salt. However, catalytic activity of this mutagenized protein was reduced by approximately 50%. These results strongly suggested that aspartic acid 320 is an important component of the catalytic triad of pancreatic cholesterol esterase. The specific requirement of aspartic acid, instead of glutamic acid, for optimal activity is different from that of other members of the serine esterase gene family.
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PMID:Aspartic acid 320 is required for optimal activity of rat pancreatic cholesterol esterase. 841 37

The involvement of carboxylesterase, acetylcholinesterase, butyrylcholinesterase and cholesterol esterase in pharmacology and toxicology are well recognized. However, there are few papers concerning the comparative studies of these serine hydrolases in terms of molecular level. Recently, we have studied various aspects of carboxylesterases using cDNAs of carboxylesterase isozymes purified from 9 animal species and human liver microsomes, and found that there is high homology of the N-terminal amino acid sequences of the isozymes tested. On the other hand, we compared the amino acid sequences at the active site of the individual esterases and found that the sequences of all esterases tested are strictly conserved. These results strongly suggest that the esterases involved are classified into the serine hydrolase super family.
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PMID:Molecular aspects of carboxylesterase isoforms in comparison with other esterases. 859 91

Structural models have been generated for rat and human cholesterol esterases by molecular modeling. For rat cholesterol esterase, three separate models were generated according to the following procedure: (1) the cholesterol esterase sequence was aligned with those of three template enzymes: Torpedo californica acetylcholinesterase, Geotrichum candidum lipase and Candida rugosa lipase; (2) the X-ray structure coordinates of the three template enzymes were used to construct cholesterol esterase models by amino acid replacements of matched sequence positions and by making sequence insertions and deletions as required; (3) bad contracts in each of the cholesterol esterase models were relaxed by molecular dynamics and mechanics; (4) the three cholesterol esterase models were merged into one by arithmetic averaging of atomic coordinates; (5) Ramachandran analysis indicated that the model generated from the AChE template possessed the best set of phi/psi angles. Therefore, this model was subjected to molecular dynamics, with harmonic constraints imposed on the C(alpha) coordinates to drive them toward the coordinates of the averaged model. (6) Subsequent relaxation by molecular mechanics produced the final rat cholesterol esterase model. A model for human cholesterol esterase was produced by repeating steps 1-3 above, albeit with the rat cholesterol esterase model as the template. Hydrophobic and electrostatic analyses of the rat and human cholesterol esterase models suggest the structural origins of molecular recognition of hydrophobic substrates and interfaces, of charged interfaces, and of bile salt activators.
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PMID:Molecular modeling of the structures of human and rat pancreatic cholesterol esterases. 900 78


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