Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A previous study of cholinergic development indicated a possible trophic relationship between the olfactory bulb and its afferents from the basal forebrain (Large et al., J. Neurochem., 46 (1986) 671-680). To examine this possibility further, cultured embryonic basal forebrain neurons from rat were used as a test system for trophic factor activity hypothesized to be present in olfactory bulb. Basal forebrain neurons grown in defined medium typically died within 2-3 days. However, survival and differentiation were strikingly enhanced by soluble extracts of olfactory bulb tissue. This trophic effect was noticeable with 2 micrograms/ml olfactory bulb protein, and plateaued at 100 micrograms/ml. The activity was heat- and trypsin-sensitive, non-dialyzable, stable in the cold, resistant to NGF antiserum, and approximately 100-150 kDa in size. Nerve growth factor, bovine serum albumin, laminin and extracts from heart did not mimic the activity. Long-term growth (21 days) in the presence of olfactory bulb proteins resulted in extensive neurite production, formation of thick neurite fascicles, and aggregation of cells. Some glia were present, as evidenced by the presence of glial fibrillary acidic protein, and large numbers of cells were positive for neuron-specific enolase and true acetylcholinesterase. Trophic activity was also present in medium conditioned by olfactory bulb slices, implying secretion of active factors.
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PMID:Soluble proteins from rat olfactory bulb promote the survival and differentiation of cultured basal forebrain neurons. 340 3

The relationship between chemical modifications of arginine derivatives and inhibitory activity to horse serum cholinesterase (BuChE) was investigated. It provided a new insight into the topography of the active site of BuChE. 1) BuChE has the hydrophobic binding pocket, the depth of which corresponds to the length of ethylpiperidine. 2) In the opposite side to the hydrophobic binding pocket, BuChE has a certain entity which repulses carboxyl group at the 2-position of piperidine of L-arginine piperidine amide. 3) The P site of BuChE can allow 4-propyl and 4-phenyl group attached to piperidine. Comparison of the results with those of thrombin and trypsin clearly revealed similarities and dissimilarities among BuChE, trypsin, and thrombin in the active site topography, and hence, we introduce a new selective inhibitor for BuChE, N alpha-dansyl-L-arginine 4-phenylpiperidine amide. It inhibits BuChE strongly (Ki = 0.016 microM), whereas it inhibits trypsin, thrombin, plasmin, and glandular kallikrein only weakly and shows actually no inhibition on acetylcholinesterase from the human erythrocyte. In addition, the new inhibitor becomes highly fluorescent when bound with BuChE, indicating that the compound is an ideal probe of the interactions of BuChE as well as a titrant of it.
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PMID:N alpha-dansyl-L-arginine 4-phenylpiperidine amide. A potent and selective inhibitor of horse serum cholinesterase. 340 26

Acetylcholinesterase was purified by passage through 3 affinity columns. The enzyme so purified was found to be homogeneous by electrophoresis and the peptidase and AChE activities co-eluted from a high pressure liquid chromatography column. The purified AChE degraded the chromogranins, the soluble proteins from the adrenal chromaffin granules, at a rate of nearly 8 micrograms/microgram AChE/h. The rate was fastest with the largest chromogranins, but proteins across the whole molecular weight spectrum were hydrolyzed. Immunoassay of extracts after incubation with AChE showed that enkephalin-like material had been produced. Incubations were also done with chromogranins that had been fractionated by size exclusion chromatography. The AChE degraded protein in all fractions and generated enkephalin-like immunoreactive material in fractions where it was produced by sequential treatment with trypsin and carboxypeptidase B. It seems likely, therefore, that AChE can hydrolyze some of the enkephalin precursors that are sensitive to trypsin and carboxypeptidase B, but the one-step nature of its action suggests a mode of action with fewer restrictions. It is concluded that AChE can hydrolyze proteins of widely differing sizes and the data add to the evidence that AChE is able to hydrolyze enkephalin precursors resulting in the generation of immunoreactive peptide.
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PMID:Acetylcholinesterase generates enkephalin-like immunoreactivity when it degrades the soluble proteins (chromogranins) from adrenal chromaffin granules. 352 46

The major soluble protein of bovine chromaffin granules chromogranin A was purified by reverse-phase high performance liquid chromatography. Brief incubations with either acetylcholinesterase or trypsin cleaved chromogranin A to yield two chromogranin-immunoreactive polypeptides which were similar in molecular weight to two of the major endogenous chromogranin polypeptides. A number of peptidase inhibitors which strongly inhibited tryptic digestion of chromogranin A also inhibited the acetylcholinesterase digestion, although they were less potent. More prolonged digestion of chromogranin A with acetylcholinesterase produced a large number of peptides which were similar to some of the endogenous chromogranin peptides in their elution profile by high performance liquid chromatography. In contrast, complete tryptic digestion of chromogranin A yielded peptides with a totally different elution profile. The experiments indicate that acetylcholinesterase possesses a peptidase activity which is similar, but not identical to trypsin, and suggest that a second non-tryptic activity is also present. They also suggest that acetylcholinesterase, an enzyme found in chromaffin cells, may process chromogranin A to yield lower molecular weight chromogranins in bovine chromaffin cells.
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PMID:Acetylcholinesterase hydrolyses chromogranin A to yield low molecular weight peptides. 353 42

Two distinct classes of acetylcholinesterase exist in near equal amounts in the electric organ of Torpedo californica. A globular 5.6 S form is a dimer which possesses a hydrophobic region. The second form is present as elongated species that sediment at 17 and 13 S and contain structural subunits disulfide-linked to the catalytic subunits. Removal of the structural subunits by mild proteolysis yields a tetramer of catalytic subunits which sediments at 11 S. To compare the primary structures of the catalytic subunits of the 5.6 S and 11 S forms of acetylcholinesterase, amino acid sequences from the active sites and from the amino-terminal regions have been elucidated. Active site serines were labeled with [3H]isopropyl fluorophosphate. After digestion with trypsin, the resultant peptides were resolved by elution from a size-exclusion column followed by reverse-phase high performance liquid chromatography. Each active site tryptic peptide contained 24 residues and identical sequences were found in this peptide for the 5.6 S and 11 S forms of the enzyme. The sequence flanking the active site serine revealed extensive homology with the published sequence of human serum cholinesterase as well as a lesser degree of homology with other known serine proteases and esterases. The sequences of the amino-terminal region also appear to be identical for both enzyme forms although we note variation in the ratio of Glu and Gln at position 5. The amino-terminal sequence exhibits only partial homology with the published sequence of human serum cholinesterase.
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PMID:Primary structures of the catalytic subunits from two molecular forms of acetylcholinesterase. A comparison of NH2-terminal and active center sequences. 390 71

Skeletal muscle extract contains a previously undocumented 1300- to 1500-Da neurotrophic factor. Incubation of ventral spinal cord neurons in the presence of this factor enhances the rate of de novo acetylcholine synthesis two- to threefold over control cells, after 6 days in culture. This effect on cholinergic activity appears to be selective, since incubation with the factor results in only slight elevations of lactate dehydrogenase activity and DNA content, and no increase in the acetylcholinesterase activity. The 1300- to 1500-Da factor is acid-stable and partially sensitive to proteolysis by proteinase K, Staphylococcus aureus V8 protease, and subtilisin, but insensitive to trypsin. These results indicate that the active moiety is a peptide. The importance of peptides as neurotransmitters or neuromodulators is well accepted, but their role in the regulation of neuronal development is not widely appreciated. The present cholinergic neurotrophic peptide is distinct from previously characterized cholinergic trophic factors and represents the first example of a small, target-derived peptide which influences cholinergic development.
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PMID:Low-molecular-weight peptide stimulates cholinergic development in ventral spinal cord cultures. 390 37

An equilibrium dialysis technique, applied to lyophilized particulate fractions of Torpedo electroplax, gave data consistent with a single kind of macromolecular binding of muscarone, with binding constant, 7 x 10(-7)M and an amount of 1 nmole per gram original electroplax. The effects on muscarone binding of 38 drugs suggested that muscarone binding reflected acetylcholine receptor activity. Of 18 enzyme preparations, only trypsin, chymotrypsin, and phospholipase C reduced binding activity, suggesting that a phospholipoprotein was binding. Partial "solubilization" of the binding protein was achieved, but the "solubilized" activity did not migrate on electrophoresis. Additional evidence was provided that acetylcholinesterase was not responsible for this muscarone binding.
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PMID:A muscarone-binding material in electroplax and its relation to the acetylcholine receptor. II. Dialysis assay. 526 75

Isolation of neurons from rat forebrain and cerebellum has been performed by a method including trypsin incubation and tissue disaggregation by filtration through successive nylon meshes with a different pore size. Phase contrast microscopy shows highly purified cell preparations. Lactate dehydrogenase, acetylcholinesterase and (Na+-K+) ATPase activities indicate that neurons possess a high cytosolic content and show a good preservation of the plasmatic membrane.
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PMID:Neurons from rat forebrain and cerebellum. Isolation and biochemical characterization. 608 29

1. Skeletal muscle from C57BL dystrophic mice demonstrated decreased activities of acetylcholinesterase with increased activities of butyrylcholinesterase. These changes were less distinct when compared to those observed with 129 ReJ mice. 2. Collagenase or trypsin treatment solubilized less acetylcholinesterase activity but more butyrylcholinesterase activity from muscle of C57BL dystrophic mice than from muscle of control mice. 3. These treatments resulted in similar pattern of release of acetylcholinesterase activity from muscle of 129 ReJ mice, except that more acetylcholinesterase activity was released from dystrophic muscle (129 ReJ) than from control by pepsin treatment. 4. The acetylcholinesterase activities released by proteolytic enzymes were characterized by sucrose density gradient centrifugation.
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PMID:Acetylcholinesterase and butyrylcholinesterase released from normal and dystrophic muscles by treatment with proteolytic enzymes. 612 76

In this study, the effect of sixteen different enzymes on serum C1 and its subcomponents was investigated. The sixteen enzymes could be divided into three groups. First, enzymes which activate native C1: trypsin (optimal concentration 2.4 x 10(-4) mM); alpha-chymotrypsin (2.3 x 10(3) mM); thrombin (1.0 x 10(-5) mM); plasmin (1.9 x 10(-5) mM); elastase (5.8 x 10(-5) mM); pronase (3.0 x 10(-6) mM). All these enzymes are serine esterase and activate native serum C1 bound to EAC4 at the given concentration within 10 min at 30 degrees C. Furthermore, native C1 inhibited by a pentosanpolysulfoester, Sp54, is unable to undergo the internal activation but can be externally activated by the serine esterases. Second, enzymes which do not activate native C1 but result in a dose and time-dependent loss of C1 activity: collagenase; pepsin; carboxypeptidase B. Third, enzymes which have no effect on C1 and C1: Lysozyme; neuraminidase; beta-galactosidase; L-amino acid oxidase; arginase; streptokinase, and acetylcholinesterase.
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PMID:Activation of the first component of complement, C1: comparison of the effect of sixteen different enzymes on serum C1. 619 90


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