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Query: UMLS:C0043167 (
pertussis
)
19,595
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of the protease trypsin, externally applied to full-grown oocytes of Xenopus laevis, were studied using electrophysiology and fluorometry. The following results were obtained: trypsin in concentrations of 0.1 microgram/ml to 1 mg/ml liberated Ca2+ from internal stores and evoked large transient currents of up to 5 microA in bath solutions containing 1 mM or no Ca2+. The response desensitized for 50 minutes and recovered at longer times. Transient currents could also be elicited by tryptic impurities in commercially available collagenase used for defolliculation of oocytes. Application of
chymotrypsin
(0.01 or 1 mg/ml) or of thrombin (3.4 ng/ml or 0.34 mg/ml) neither evoked currents nor desensitized trypsin responses. Incubation with 1 microgram/ml
Pertussis
toxin for 20 to 25 hours prevented the Ca2+ release from internal stores and the activation of transient currents by trypsin. We propose that endogenous receptors in the oolemma, specific for trypsin, are linked to internal Ca2+ stores via
Pertussis
toxin-sensitive G proteins. Thus, receptor activation by external trypsin raises internal Ca2+ and thereby opens Ca(2+)-activated Cl channels in the oolemma.
...
PMID:Endogenous trypsin receptors in Xenopus oocytes: linkage to internal calcium stores. 941 53
The catalytically inactive precursor of urokinase-type plasminogen activator (pro-u-PA) induced a chemotactic response in rat smooth muscle cells (RSMC) through binding to the membrane receptor of urokinase (u-PA receptor [u-PAR]). A soluble form of u-PAR activated by
chymotrypsin
cleavage as well as a peptide located between domain 1 and 2 of u-PAR reproduced the effect of pro-u-PA on cell migration. The chemotactic pro-u-PA effect correlates with a dramatic reorganization of actin cytoskeleton, of adhesion plaques, and with major cell shape changes in RSMC. Pro-u-PA induced a decrease in stress fiber content, membrane ruffling, actin ring formation, and disruption leading to the characteristic elongated cell shape of motile cells with an actin semi-ring located close to the leading edge of cells. u-PAR effects on both chemotaxis and cytoskeleton were sensitive to
pertussis
toxin and, hence, possibly require G proteins. u-PAR effects are accompanied by a relocation of u-PAR, vitronectin receptor (VNR) alphavbeta3, beta1 integrin subunit, and Src tyrosine kinase to the leading membrane of migrating cells. In conclusion, our data show that pro-u-PA, via binding to u-PAR, controls a signaling pathway, regulated by tyrosine kinases and possibly G proteins, leading to cell cytoskeleton reorganization and cell migration.
...
PMID:Src-dependence and pertussis-toxin sensitivity of urokinase receptor-dependent chemotaxis and cytoskeleton reorganization in rat smooth muscle cells. 1039 32
The binding of the urokinase plasminogen activator (uPA) to its receptor (uPAR) regulates cell adhesion, surface proteolysis, chemotaxis and cell extravasation in a number of experimental systems. Recent evidences have suggested that uPAR can by itself mediate chemotaxis of human monocytes and cause profound changes in cytoskeletal organization indicating that this receptor has the properties of a cell-surface regulated chemokine. Indeed, it is likely that upon binding to uPA, uPAR undergoes a conformational change that uncovers a new epitope located in the linker region between domain 1 and 2 of the receptor and is endowed with a potent chemotactic activity. This conformational change can be mimicked in vitro by enzymatic processing of a recombinant receptor. We have shown that
chymotrypsin
cleaves uPAR between domain 1 and 2 in an area that can be also cleaved by uPA at high efficiency and generate a receptor that can mediate monocytes migration independently of uPA binding. This mechanism is
pertussis
-toxin sensitive and involves activation of tyrosine kinases and cytoskeletal reorganization events in vitro. These studies indicate that in addition to its receptor function, upon binding to uPA, uPAR becomes a pleiotropic ligand for other still to be identified surface molecules.
...
PMID:Structure and function of the urokinase receptor. 1069 80
Protease activity was measured through the hydrolysis of synthetic amino acid esters in body fluids and tissues of guinea pigs, rats, mice, and humans. Significant in vitro activation was observed in serum and lung slices of sensitized guinea pigs on addition of the specific antigen. Increased proteolytic activity was also seen in reverse anaphylaxis. More marked activation occurred when guinea pig serum was treated with peptone and guinea pig or rat serum was treated with agar. Protease activation was demonstrated in specimens of human skin under the influence of a poison ivy extract or croton oil added in vitro. Urinary protease activity of guinea pigs increased significantly during the first hours of anaphylactic shock and very markedly in peptone shock. Peptone shock, elicited in mice pretreated with H.
pertussis
, was accompanied by a considerable increase in protease activity in the peritoneal fluid as compared with non-pretreated mice which were insensitive to peptone. Proteolytic activity resulting from the activation procedures was due to a number of proteases. The dominant substrate affinity and inhibition patterns suggest that serum and urine proteases are similar to but not identical with plasmin. Anaphylactic activation exhibited patterns different from those resulting from the action of anaphylactoid agents. Tissue enzymes are either of cathepsin- or
chymotrypsin
-type or mixtures of both. Some of the activated enzymes, although remarkably effective in hydrolyzing amino acid esters, show no activity on protein substrates. This does not justify, however, their designation as "esterases." They probably belong to the class of specific proteases acting only on a single or a small number of functionally significant protein substrates. There is at present sufficient evidence to prove not only that protease activation does occur in anaphylaxis and anaphylactoid conditions but also that it is an important component of the chain of reactions leading to the allergic response.
...
PMID:Further studies on the role of proteases in the allergic reaction. 1377 89
Adenylate cyclase-hemolysin toxin (CyaA) produced from the human respiratory tract pathogen Bordetella
pertussis
requires fatty-acyl modification by CyaC-acyltransferase to become an active toxin. Previously, the recombinant CyaA pore-forming (CyaA-PF) fragment expressed in Escherichia coli was shown to be hemolytically active upon palmitoylation in vivo by cosynthesized CyaC. Here, the 21-kDa CyaC enzyme separately expressed in E. coli as an inclusion body was solubilized in 8 M urea and successfully refolded into an enzymatically active monomer. In addition to the capability of activating CyaA-PF in vitro, CyaC showed esterase activity against p-nitrophenyl acetate (pNPA) and p-nitrophenyl palmitate (pNPP), with preferential hydrolysis toward pNPP when compared with
chymotrypsin
. A homology-based CyaC structure suggested a conceivable role of a catalytic triad including Ser(30), His(33) and Tyr(66) in substrate catalysis. Alanine substitutions of these individual residues caused a drastic decrease in specific activities of all three mutant enzymes (S30A, H33A and Y66A) toward pNPP, signifying that CyaC-acyltransferase shares a similar mechanism of hydrolysis with a serine esterase in which Ser(30) is part of the catalytic triad.
...
PMID:Esterase activity of Bordetella pertussis CyaC-acyltransferase against synthetic substrates: implications for catalytic mechanism in vivo. 2013 7
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