EC:3.4.21.4 - FACTA Search

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 substrate protein for botulinum C3 ADP-ribosyltransferase (C3 exoenzyme) in human platelets was purified to apparent homogeneity from the cytosol by ammonium sulfate fractionation and successive chromatography on columns of DEAE-Sepharose, hydroxylapatite, phenyl-Sepharose, and TSK phenyl-5PW. The purified protein yielded an amino acid sequence identical to that of rhoA protein. When platelet cytosol and membranes were incubated with C3 exoenzyme and [32P]NAD and subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis and isoelectric focusing, they gave only one [32P]ADP-ribosylated band on each electrophoresis that showed an M(r) of 22,000 and a pI of 6.0. The radioactive bands from the two fractions co-migrated with each other and with the [32P]ADP-ribosylated purified protein. When these radioactive products were partially digested with either alpha-chymotrypsin or trypsin and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the same digestion pattern was found in the three samples. These results suggest that the ADP-ribosylation substrate for C3 exoenzyme in the platelet cytosol and membrane is rhoA protein and that it is the sole substrate detectable in human platelets.
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PMID:A rho gene product in human blood platelets. I. Identification of the platelet substrate for botulinum C3 ADP-ribosyltransferase as rhoA protein. 132 15

Interferon gamma (IFN-gamma) induces human leukocyte antigen (HLA)-DR antigen expression on a variety of cell types, and in human skin cells this induction is inhibited by trypsin inhibitors. Recently a trypsin-like protease was characterized whose activity is required for HLA-DR induction in a hybrid epidermal cell line. Glucocorticosteroids also inhibit IFN-gamma-induced HLA-DR expression, and similarities have been noted between the inhibition by trypsin inhibitors and by glucocorticosteroids. To assess the possibility that glucocorticosteroid inhibition of IFN-gamma-induced HLA-DR expression might be due to induction of an inhibitor of trypsin activity that is re-expression, we examined culture medium supernates (CM) of glucocorticosteroid-treated cells for HLA-DR- and trypsin-inhibitory activities. We report here that CM of glucocorticosteroid-treated H12 cells contain inhibitors of HLA-DR expression and of trypsin activity, but that the two inhibitors are not identical. H12 cells constitutively secrete a greater than 30,000 MW, acid- and heat-stable trypsin inhibitor, whose expression is not modulated by glucocorticosteroid or IFN-gamma, and that does not inhibit IFN-gamma-induced HLA-DR expression. The HLA-DR inhibitor, on the other hand, is present only in CM of glucocorticosteroid-treated cells, is distinct from glucocorticosteroid itself, of a MW less than 500 and does not inhibit trypsin. We conclude, therefore, that the glucocorticosteroid inhibition of IFN-gamma-induced HLA-DR expression is by a mechanism other than secretion of a trypsin inhibitor.
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PMID:Characterization of a glucocorticosteroid-induced inhibitor of interferon-gamma induction of HLA-DR expression. 160 77

Serine protease inhibitors with a specificity for trypsin inhibit interferon-gamma (INF-gamma)-induced HLA-DR expression on a hybrid human epidermal cell line (H12), dermal fibroblasts, and primary keratinocytes. Protease inhibitors with a specificity for chymotrypsin or papain fail to inhibit IFN-gamma. The inhibitory effect of the trypsin inhibitors is similar to that of glucocorticoids in that it is a transient event, fading with length of exposure to IFN-gamma, and is reversed by the addition of dibutyryl cyclic AMP (dbcAMP) and phospholipase C(PLC) from Clostridium perfringens. In H12 cells, dbcAMP and PLC enhance the IFN-gamma induction of HLA-DR, but do not induce in the absence of INF-gamma. Evidence suggests that the protease inhibitors, as well as dbcAMP and PLC, may modulate HLA-DR expression at a post-translational site as well as during IFN-gamma signal transduction. These results suggest that trypsin-like protease activity may be required for cellular HLA-DR antigen expression following exposure to IFN-gamma.
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PMID:Trypsin inhibitors inhibit induction by interferon-gamma of HLA-DR antigen expression on human skin cells. 247 85

The surface ionogenicity of five enteropathogenic Escherichia coli serogroups (O111:H2, O111:H12, O125:H9, O119:H6, and O26:H11) was investigated by electrokinetical approaches. All of the studied surfaces are negatively charged with their mean values of zeta potential (ZP) varying from -9.0 (O26:H11) to -11.9 mV (O111:H2). The populational behavior of the all bacteria are similar since very high ZP values varying from -26 to -30 mV were obtained in experiments carried out with the slip plane calculated at 6.83 nm from the cell surface. All the surfaces are extremely acidic, because the isoelectrophoretic points are localized at pH values below 3.0. Treatment of the microorganisms with neuraminidase did not alter their surface anionogenicity, while treatment with trypsin or phospholipase C reduced their negative charge.
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PMID:The electrokinetic surface of five enteropathogenic Escherichia coli serogroups. 775 90

Phospholipase D (PLD) which was partially purified from membranes of porcine brain could be stimulated by multiple cytosolic components; these included ADP-ribosylation factor (Arf) and RhoA, which required guanine nucleotides for activity, and an unidentified factor which activated the enzyme in a nucleotide-independent manner (Singer, W. D., Brown, H. A., Bokoch, G. M., and Sternweis, P. C. (1995) J. Biol. Chem. 270, 14944-14950). Here, we report purification of the latter factor, its identification as the alpha isoform of protein kinase C (PKCalpha), and characterization of its regulation of PLD activity. Stimulation of PLD by purified PKCalpha or recombinant PKCalpha (rPKCalpha) occurred in the absence of any nucleotide and required activators such as Ca2+ or phorbol ester. This action was synergistic with stimulation of PLD evoked by either Arf or RhoA. Dephosphorylation of rPKC alpha with protein phosphatase 1 or 2A resulted in a loss of its kinase activity, but had little effect on its ability to stimulate PLD either alone or in conjunction with Arf. Staurosporine inhibited the kinase activity of PKCalpha without affecting activation of PLD. Finally, gel filtration of PKCalpha that had been cleaved with trypsin demonstrated that stimulatory activity for PLD coeluted with the regulatory domain of the enzyme. These data indicate that PKC may regulate signaling events through direct molecular interaction with downstream effectors as well as through its well characterized catalytic modification of proteins by phosphorylation.
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PMID:Regulation of phospholipase D by protein kinase C is synergistic with ADP-ribosylation factor and independent of protein kinase activity. 862 5

In a cell-free system from neutrophil cytosol GTP(&ggr ;)S can induce an increase in the number of free filament barbed ends and massive actin polymerisation and cross-linking. GTP(&ggr ;)S stimulation was susceptible to an excess of GDP, but not Bordetella pertussis toxin and could not be mimicked by aluminium fluoride, myristoylated GTPgammaS.Gialpha2 or Gbeta1gamma2 subunits of trimeric G proteins. In contrast, RhoGDI and Clostridium difficile toxin B (inactivating Rho family proteins) completely abrogated the effect of GTPgammaS. When recombinant, constitutively activated and GTPgammaS-loaded Rac1, RhoA, or Cdc42 proteins alone or in combination were probed at concentrations >100 times the endogenous, however, they were ineffective. Purified Cdc42/Rac-interactive binding (CRIB) domain of WASP or C3 transferase did not prevent actin polymerisation by GTPgammaS. The action of GTPgammaS was blocked by mM [Mg2+], unless a heat- and trypsin-sensitive component present in neutrophil plasma membrane was added. Liberation of barbed ends seems therefore to be mediated by a toxin B-sensitive cytosolic Rho-family protein, requiring a membrane-associated guanine nucleotide exchange factor (GEF) for its activation by GTPgammaS under physiologic conditions. The inefficiency of various protein kinase and phosphatase inhibitors (staurosporine, genistein, wortmannin, okadaic acid and vanadate) and removal of ATP by apyrase, suggests that phosphate transfer reactions are not required for the downstream propagation of the GTPgammaS signal. Moreover, exogenously added phosphoinositides failed to induce actin polymerisation and a PtdIns(4,5)P2-binding peptide did not interfere with the response to GTPgammaS. The speed and simplicity of the presented assay applicable to protein purification techniques will facilitate the further elucidation of the molecular partners involved in actin polymerisation.
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PMID:GTPgammaS-induced actin polymerisation in vitro: ATP- and phosphoinositide-independent signalling via Rho-family proteins and a plasma membrane-associated guanine nucleotide exchange factor. 958 May 66

Purified membrane fractions have been widely used for the study of the factors regulating the functions of Rho small GTP-binding proteins. Using brush border membranes from the rat kidney as a model, we observed that in vitro incubation of these membranes resulted in time- and temperature-dependent proteolytic degradation of Cdc42 and RhoA. Treatment of kidney brush border membranes with various nucleotides showed that GDP and GTP weakly protected Cdc42 but not RhoA and that their nonhydrolyzable counterparts, guanosine 5'-O-[beta-thio] diphosphate (GDP beta S) and guanosine 5'-O-[gamma-thio]triphosphate (GTP gamma S), were highly efficient in protecting both proteins from endogenous proteolytic activity whereas ADP and ATP were without effect. GTP gamma S also protected Cdc42 and RhoA from proteolytic degradation in crude cell membranes from several rat tissues including intestine, kidney, liver, and testis. In addition, Cdc42 and RhoA associated with brush border membranes were largely resistant to increased proteolytic degradation induced by membrane treatment with the denaturing reagent urea as well as to added trypsin when incubated in the presence of GTP gamma S. In brush border membranes, the resistance to endo- and exo-genous proteolytic activity conferred by GTP gamma S was usually lower for RhoA than for Cdc42. GTP gamma S also protected recombinant Cdc42 and RhoA from the action of proteases associated with brush border membranes. The only protease inhibitor protecting Cdc42 but not RhoA from proteolytic degradation in brush border membranes was the synthetic peptide acetyl-Tyr-Val-Ala-Asp-aldehyde, a selective inhibitor of interleukin-1 beta-converting enzyme. This latter result showed that different proteases cleaved the two Rho proteins. Taken together, these results suggest that the GTP gamma S-bound forms of Cdc42 and RhoA are maintained in a conformation that protects them from proteases found in many cell membranes.
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PMID:Guanine nucleotides protect Rho proteins from endogenous proteolytic degradation in renal membranes. 966 7

The prenylated protein carboxyl methyltransferase (PPMT) catalyzes the posttranslational methylation of isoprenylated C-terminal cysteine residues found in many signaling proteins such as the small monomeric G proteins and the gamma subunits of heterotrimeric G proteins. Here we report that both membrane-bound PPMT from rat kidney and the recombinant bacterially expressed form of the enzyme required divalent cations for catalytic activity. Unlike EDTA and EGTA, the metal chelator 1,10-phenanthroline strongly inhibited the PPMT activity of kidney intracellular membranes in a dose- and time-dependent manner. 1,10-Phenanthroline was found to inhibit the methylation of the prenylcysteine analog N-acetyl-S-all-trans-geranylgeranyl-l-cysteine, a synthetic substrate for PPMT, with an IC(50) of 2.2 mM. Gel electrophoretic analysis demonstrated that 1,10-phenanthroline almost totally abolished the labeling of methylated proteins in kidney intracellular membranes. Immunoblotting analysis showed that one of the two major peaks of (3)H-methylated proteins in intracellular membranes comigrated with the small G proteins Ras, Cdc42, RhoA, and Rab1. In addition, the methylation of immunoprecipitated Ras and RhoA from kidney intracellular membranes was strongly inhibited when 1,10-phenanthroline was present. Treatment of kidney intracellular membranes with 1,10-phenanthroline increased the proteolytic degradation of PPMT by exogenous trypsin, compared to untreated membranes. We conclude from these data that metal ions are essential for the activity and the stabilization of PPMT. The finding that PPMT is a metalloenzyme may provide new insights into the functions played by this methyltransferase in signal transduction processes.
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PMID:The carboxyl methyltransferase modifying G proteins is a metalloenzyme. 1044 3

Thrombin and trypsin induce cell signaling through a subclass of G-protein-coupled receptors called the protease-activated receptors (PARs). In many cells, PAR signaling results in the activation of RhoA and other members of the Rho family of small GTPases which are involved in cytoskeletal reorganization. The expression of PARs and their role in the activation of Rho GTPases in prostate cancer cells are not clearly known. FACS analysis demonstrated that the androgen-dependent LNCaP cells express PAR1, PAR2, and PAR4 but not PAR3. Stimulation with thrombin and trypsin resulted in the rapid activation of RhoA in a dose-dependent manner with an EC(50) of 1.0 and 5 nM, respectively. Activation of RhoA was enhanced by, but not dependent on, the presence of 1 nM dihydrotestosterone. Inhibition of the proteolytic properties of thrombin by hirudin and trypsin by diisopropyl fluorophosphate abolished the observed RhoA activation. Stimulation with 150 microM PAR-activating peptides TFFLRN (PAR1), SLIGKV (PAR2), and AYPGKF (PAR4) demonstrated that PAR1 and PAR2 mediated protease-activated RhoA signaling. Fluorescent microscopy studies showed that LNCaP cells treated with either thrombin (10 nM) or trypsin (10 nM) developed an increased number of filopodia, stress fibers, and focal adhesions relative to untreated cells. These observations represent the first report of PAR signaling in prostate cancer cells as well as the ability of PAR2 to mediate RhoA activation. Since the activation of RhoA is important for cytoskeletal reorganization, we postulate that PAR-mediated RhoA activation may be a major signaling pathway in the biology of prostate cancer.
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PMID:Protease-activated receptor mediated RhoA signaling and cytoskeletal reorganization in LNCaP cells. 1253 82

The proteinase-activated receptors (PAR) PAR1 and PAR2 mediate responses to thrombin and trypsin-like proteases, respectively. Both receptors are expressed on endothelial cells where they have been reported to transduce a similar set of intracellular responses. In cultured human umbilical vein endothelial cells (HUVEC), we observed a marked difference in shape changes induced by PAR-activating peptides (PAR-APs); unlike PAR1-AP, PAR2-AP failed to stimulate cell rounding. Objectives were to shed light on the mechanisms underlying PAR-mediated cytoskeletal responses. We examined the activation of the Rho family GTPases in HUVEC using highly selective PAR1- and PAR2-APs to do this. Both peptides induced a robust and transient activation of RhoA, with the time course of activation being more sustained for the PAR1-AP. Interestingly, divergent effects on Rac activity were observed. Addition of PAR1-AP inhibited basal Rac activity as well as the phosphorylation of the Rac effector, p21-activated kinase (PAK). In contrast, PAR2-AP induced a modest activation of Rac, phosphorylation of PAK and translocation of cortactin from the cytosol to membrane ruffles, a Rac-dependent event. In vivo, only PAR1-AP rapidly enhanced vascular permeability in a mouse skin assay. We conclude that the differential regulation of the Rac/PAK pathway by PAR1 and PAR2 agonists in endothelial cells points toward distinct roles for these receptors in the control of vascular permeability and blood vessel remodeling.
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PMID:Modulation of Rho GTPase activity in endothelial cells by selective proteinase-activated receptor (PAR) agonists. 1287 83

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