EC:3.4.21.4 - FACTA Search

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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)

We studied (a) the distribution and properties of fast and slow 125I-nerve growth factor (125I-NGF) binding sites in cultured human neuroblastoma (NB) cell lines that were categorized as responsive (N+) or unresponsive (N-) to NGF by neurite outgrowth, (b) whether fast or slow sites mediate actions of NGF, and (c) whether NGF-mediated conversion of fast to slow sites occurs in human NB and pheochromocytoma PC 12 cells. In human NB SH-SY5Y cells, the slow sites were trypsin resistant and binding was of high affinity. Loss of binding to the slow sites had a half-time of 25 to 30 min at 37 degrees C and was very slow at 4 degrees C. In contrast, the fast sites were trypsin sensitive and binding was of lower affinity; its dissociation half-time was less than 1 min at 4 degrees C and 37 degrees C. The association rate constants of both sites were about 0.8 to 1.2 X 10(7) M-1 sec-1. Some human NB cells had both fast and slow sites. The N+ human NB lines SH-SY5Y and LA-N-5 had only slow sites. Despite the virtual elimination of fast sites by trypsin in NB MC-IXC cells, remaining slow sites could still efficiently bind 125I-NGF. These observations showed that fast sites are not required for slow site binding, neurite outgrowth, or other demonstrated actions of NGF in some NB cells. In PC 12 cells, 125I-NGF initially bound to fast sites was not directly transferred to slow sites as required for NGF-mediated conversion. The association rate constants of fast and slow sites in PC12 cells were both about 2 X 10(7) M-1 sec-1. The association kinetics were consistent with simple bimolecular reactions in both NB and PC12 cells. The combined evidence in NB and PC12 cells did not support the hypothesis of NGF-mediated conversion of fast to slow sites.
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PMID:Fast and slow nerve growth factor binding sites in human neuroblastoma and rat pheochromocytoma cell lines: relationship of sites to each other and to neurite formation. 402 Apr 17

Murine C 1300 neuroblastoma cells bind with high avidity on their membrane surface the nerve growth factor (NGF), a protein capable of inducing differentiation of sympathetic nerve cells. The total binding capacity of NGF by the cells was quantitatively measured by a radioimmunoassay technique, using (125)I-labeled NGF. An average number of about 10(6) molecules of NGF could be bound, at saturation, by each cell with an average relative association constant of about 10(7) liters/mol. Using synchronized cells, it was found, however, that either the number of molecules of ligand bound or the avidity of the binding interaction between NGF and cells varied depending upon their growth cycle, the maximal-binding occurring during the G(1) and early S phase. Binding of [(125)I]NGF was suppressed by trypsin treatment of the cells, however new receptor sites were rapidly replaced onto the membrane surface within 1-2 h. Cells exposed to 3 M KCl released into the supernate a protein product exhibiting similar high avidity for NGF. Acrylamide gel electrophoresis suggested a restricted molecular heterogeneity of this product, with a major component in the 52,000 mol wt region. Antibodies made specific to this protein were capable, in the absence of the complement, of inhibiting the binding of [(125)I]NGF by the cells and in the presence of the complement they killed them.
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PMID:Specific binding of nerve growth factor (NGF) by murine C 1300 neuroblastoma cells. 421 Oct 21

Rat sympathetic neurons, plated onto extracellular matrix produced by cultured bovine corneal endothelial cells, rapidly extended neurites in the absence of nerve growth factor (NGF). The response was unaffected by antiserum to NGF. Rapid outgrowth also occurred when sympathetic neurons were plated onto polylysine-coated surfaces that had been exposed to serum-free medium conditioned by corneal endothelial cells (CMSF). A response was seen even when the neurons were cultured without serum. When plated onto a polylysine-coated dish treated with CMSF over half its surface, only the neurons on the treated half extended neurites. The active factor in CMSF was destroyed by trypsin, acid (pH 1.6), base (pH 12.7), or heating to 80 degrees C; it was stable to heating to 60 degrees C, collagenase, deoxyribonuclease, and neuraminidase. The factor elutes just after the void volume of a Sepharose 6B column. In associative cesium chloride gradients, it sediments as a peak centered at a density of 1.36-1.37, corresponding to a peak of material that can be biosynthetically labeled with [35S]sulfate or [3H]leucine. Material from this fraction was inactivated by heparinase, but not chondroitinase ABC, implying that a heparin sulfate proteoglycan is essential for the factor's activity. Inactivation by contaminants in the heparinase preparation was ruled out. Further purification indicated that the active factor may exist as an aggregate containing a heparin sulfate proteoglycan and other molecules. CMSF also promoted neurite outgrowth by other types of neurons. Furthermore, a variety of cell types were shown to produce factors similar to that in CMSF.
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PMID:Characterization of a factor that promotes neurite outgrowth: evidence linking activity to a heparan sulfate proteoglycan. 621 11

Tonin is an enzyme found in the rat submaxillary glands which liberates angiotensin II from angiotensinogen, the Skeggs tetradecapeptide renin substrate, and angiotensin I. Tonin hydrolyzes benzoyl-arginine ethyl ester, benzoyl-arginine methyl ester, tosyl-arginine methyl ester, benzoyl-arginine p-nitroanilide and other small synthetic substrates at an optimum ph of 9.0. Tonin shows, however, a great specificity with respect to angiotensin I. Tonin is inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride at high concentrations (greater than 10(-2) M) and by soybean trypsin inhibitor and aprotinin. Tonin is thus an esteroprotease of the class of the serine protease with trypsin- and chymotrypsin-like activity. Tonin belongs to the same family of enzyme as glandular kallikrein and the gamma subunit of the nerve growth factor.
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PMID:Tonin, an esteroprotease from rat submaxillary glands. 626 71

The binding of 125I-labeled nerve growth factor (NGF) to human melanoma cell (A875) membranes, detergent-soluble membrane extracts, and membrane extracts reconstituted into phospholipid vesicles was significantly increased when binding was carried out in the presence of wheat germ agglutinin (WGA). In the absence of WGA, all 125I-NGF binding was rapidly eliminated by trypsin treatment or rapidly dissociated in the presence of a high concentration of unlabeled NGF. However, in the presence of WGA, up to 75% of 125I-NGF bound was resistant to trypsin digestion and was only slowly dissociated by a high concentration of unlabeled NGF. The effects of WGA can be blocked or reversed by N-acetylglucosamine. Both WGA and NGF rapidly associate with soluble extracts and reconstituted vesicles and, at the concentrations used here, reach binding equilibrium within 2 min. The conversion to slowly dissociating, trypsin-resistant binding, however, was not complete for at least 10 min. Both WGA and NGF are required for maximum accumulation of trypsin-resistant, slowly dissociating binding. The order of addition of NGF and WGA has no effect on the rate of conversion of NGF-receptor, and the conversion occurs after both NGF and WGA are present. The amount of conversion is dependent on the incubation temperature, and significantly greater conversion occurs at 37 than at 0 degrees C. The generation of the trypsin-resistant, slowly dissociating state of NGF-receptor is consistent with a time- and temperature-dependent conformational change in NGF-receptor which occurs after interaction of both NGF and WGA with the receptor or closely associated structures.
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PMID:Change in state of nerve growth factor receptor. Modulation of receptor affinity by wheat germ agglutinin. 630 53

PC12 cells possess two classes of nerve growth factor (NGF) receptors on their surfaces which can be distinguished by kinetic criteria. The majority class binds and releases 125I-NGF at a relatively rapid rate and has been called fast. The second class of receptors has been called slow because of relatively slower rates of binding and release of 125I-NGF, and also may be distinguished from fast receptors by their cytoskeletal association and resistance to trypsin. PC12 cell plasma membranes were prepared and shown to have only the fast class of receptors. These membranes were fused to receptorless 3T3 cells with polyethylene glycol. The resultant fused cells were shown to possess NGF receptors, essentially all of which behave like slow receptors. Immunofluorescence microscopy was used to monitor the introduction of PC12 cell membrane and NGF receptors into 3T3 cells. Results obtained with C10-2, a monoclonal antibody specific for a major PC12 cell-surface antigen. show that up to 90% of 3T3 cells receive PC12 membrane and that the PC12 membrane becomes integrally incorporated into the 3T3 cell plasma membrane. It is suggested that an association of receptors with cytoskeleton may be involved in the conversion of fast to slow receptor behavior, and that the differing proportion of fast and slow NGF receptors in PC12 and 3T3 cells reflects the differing cytoskeletal organization of these cells.
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PMID:The nerve growth factor receptor on PC12 cells: interconversion between two forms with different binding properties. 630 52

The binding of nerve growth factor (NGF) to its receptors in PC12 cells was studied in two experimental conditions: (a) cell fixation with paraformaldehyde followed by permeabilization of the plasma membrane with methanol and (b) metabolic poisoning of living cells with sodium azide. Paraformaldehyde fixation of PC12 cells causes a 60-70% reduction of NGF binding capacity; the original binding capacity is restored following permeabilization with methanol. A kinetic analysis of NGF binding under these conditions reveals a single homogeneous population of receptors at variance with experiments performed in living cells where two kinetically distinct types of NGF receptors were demonstrated [Landreth, G. E. and Shooter, E. M. (1980) Proc. Natl Acad. Sci. USA, 77, 4751-4755; Schechter, A. L. and Bothwell, M. A. (1981) Cell, 24, 867-874]. Our results suggest that a proportion of the NGF receptors in PC12 cells is hidden, i.e. not available for binding to the ligand, and in a dynamic equilibrium with exposed receptors. The existence of hidden receptors is confirmed by treatment of PC12 cells with sodium azide, which causes a 50% reduction in NGF binding capacity and protection from trypsin digestion of the remaining pool of hidden receptors. The latter become exposed at the cell surface following removal of sodium azide. Our data provide an interpretation for the as yet unsatisfactorily explained data on NGF receptors.
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PMID:Hidden receptors for nerve growth factor in PC12 cells. 630 21

PC12 is a nerve growth factor (NGF) responsive cell line which exhibits two classes of NGF receptors distinguishable by different kinetic rate constants, sensitivity to trypsin and resistance to Triton detergent solubilization. Whereas incubation of PC12 cells with wheat germ agglutinin (WGA) prior to addition of 125I-NGF inhibits binding of NGF to both classes of receptors, treatment with WGA subsequent to incubation with NGF does not inhibit NGF binding but causes the class of NGF receptors which exhibit rapid or "Fast" dissociation kinetics prior to lectin treatment to be converted to the form which exhibits "Slow" dissociation kinetics. This WGA-mediated receptor conversion is lectin specific, blocked by N-acetyl-D-glucosamine, occurs at similar rates at 4 and 37 degrees C, and is not impaired by a metabolic poison. NGF receptors converted by WGA, like pre-existing Slow receptors, are resistant to trypsinization and remain associated to Triton X-100 extracted "cytoskeletons." Very similar results were obtained for NGF receptors on a human melanoma cell line A875. These results suggest that Fast and Slow receptors are two interconvertible forms of a single protein, rather than distinct proteins. The significance of the generality of these properties for NGF receptors from diverse species and cell types is discussed.
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PMID:Modification of nerve growth factor receptor properties by wheat germ agglutinin. 631 20

A trypsin-degradable nerve growth factor (NGF) receptor associated with the phospholipid component of the surface membrane has been detected on F98 anaplastic glioma cells. NGF also bound to the nucleus of F98 cells. Bound NGF was not displaceable by insulin, cytochrome C, growth hormone, or bovine serum albumin. Specific binding of NGF occurred with a Kd of 8.79 X 10(-12) M as determined by Scatchard analysis with approximately 34,000 receptors per cell. Specific NGF binding was also evident to C6 rat glioma cells and IMR-32 human neuroblastoma cells, but not to 3T3 mouse fibroblasts. These observations coupled with previous findings suggest that the NGF receptor may be a marker found on cells of neural derivation. As little as 1 ng/ml NGF caused an increase in the adhesiveness of F98 cells to culture flasks. Increased adhesiveness could be observed in as little as 5 min and was apparent for at least 45 min. At 25 min in NGF-containing medium, 24 +/- 3% of the cells adhered to the flasks compared to 13 +/- 1% of control cells. The NGF-induced increase in adhesiveness was not duplicated by epidermal growth factor, insulin, cytochrome c, bovine serum albumin, dibutyryl cyclic AMP, or sodium butyrate. Oxidized NGF blocked the effect of native NGF, but had little or no adhesion-promoting activity itself. Pretreatment of the cells with NGF was also effective in promoting adhesion, even though nerve growth factor was not added to the binding medium. The effect of this pretreatment was reversible; when NGF-pretreated cells were grown in medium without supplemental NGF, the adhesiveness of the cells returned to control levels or lower.
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PMID:Increased adhesion response of anaplastic glioma cells to nerve growth factor and the presence of specific receptors. 631 24

Tonin, an esteroprotease isolated from rat submaxillary gland, is a serine protease with trypsin- and chymotrypsin-like activity. The substrate specificity of tonin shows that it differs from kallikreins and is definitely not a renin-like enzyme or an angiotensin-converting enzyme. Tonin can produce directly the vasoactive peptide angiotensin II, from angiotensin I, angiotensinogen and the synthetic tetradecapeptide substrate of renin by cleavage of a Phe-His bond. It has also been found to cleave some Phe and Arg bonds in various substrates such as beta-lipotropin (beta-LPH), adrenocorticotropin (ACTH), pro-opiomelanocortin (POMC) and substance P. Here we describe the complete amino acid sequence of rat submaxillary gland, tonin. Comparison of the sequence of 219 amino acids with other serine proteases, particularly kallikreins, gamma-subunit of nerve growth factor (NGF) and the recently described gamma-renin, reveals extensive similarities. More interestingly, it also reveals the substitution of an Asp residue always found in the serine protease active site triad (Asp, His, Ser) by a Leu residue. This unusual substitution does not seem to affect the proteolytic activity of the enzyme.
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PMID:Amino acid sequence of rat submaxillary tonin reveals similarities to serine proteases. 632 14

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