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)

The role of secretory epididymal factors on sperm survival and storage in bovine cauda epididymides is poorly understood. Thus, the effects of bovine epididymal epithelium fluid (BEEF) on frozen-thawed bovine sperm motility have been evaluated in vitro. Sperm motion parameters were assessed by computer-assisted sperm analysis. Compared with serum bovine proteins, BEEF efficiently sustained bovine sperm motility after a 6-h incubation period. The positive effect of BEEF on sperm motility was even more apparent using a fractionated BEEF extract (>10 kDa, 2 mg/ml). This beneficial effect was abolished when the BEEF active fraction was heat treated before incubation. A minimal 2-h BEEF preincubation period was necessary to maintain sperm motility activity and to protect sperm against oxidative injury caused by 150 microM hydrogen peroxide. The proteins from the BEEF >10-kDa fractions were biotinylated to identify the proteins that bind to the sperm surface. Five specific sperm-surface-binding proteins were revealed by Western blot analysis probed with avidin-horseradish peroxidase conjugate. These proteins were digested with trypsin for identification by matrix-assisted laser desorption ionization time-of-flight peptide mass spectrometric analyzer. Under reducing conditions, 5 bovine proteins were identified: the beta (36-kDa spot) and alpha (38-kDa spot) chains of clusterin, the beta-adrenergic receptor kinase 2 (48-kDa spot), and the antithrombin-III and the fibrinogen gamma-B chains, both corresponding to a doublet of about 50-52 kDa. These proteins are known to be present at the sperm surface in other species and could play a role in sperm protection in vivo. These results provide new insights to explain how secretory epididymal proteins sustain sperm motility during storage in vitro.
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PMID:Characterization and identification of epididymal factors that protect ejaculated bovine sperm during in vitro storage. 1175 Dec 77

Familial encephalopathy with neuroserpin inclusion bodies (FENIB) is an autosomal dominant dementia that is characterized by intraneuronal inclusions of mutant neuroserpin. We report here the expression, purification, and characterization of wild-type neuroserpin and neuroserpin containing the S49P mutation that causes FENIB. Wild-type neuroserpin formed SDS-stable complexes with tPA with an association rate constant and K(i) of 1.2 x 10(4) m(-1) s(-1) and 5.8 nm, respectively. In contrast, S49P neuroserpin formed unstable complexes with an association rate constant and K(i) of 0.3 x 10(4) m(-1) s(-1) and 533.3 nm, respectively. An assessment by circular dichroism showed that S49P neuroserpin had a lower melting temperature than wild-type protein (49.9 and 56.6 degrees C, respectively) and more readily formed loop-sheet polymers under physiological conditions. Neither the wild-type nor S49P neuroserpin accepted the P7-P2 alpha(1)-anti-trypsin or P14-P3 antithrombin-reactive loop peptides that have been shown to block polymer formation in other members of the serpin superfamily. Taken together, these data demonstrate that S49P neuroserpin is a poor proteinase inhibitor and readily forms loop-sheet polymers. These findings provide strong support for the role of neuroserpin polymerization in the formation of the intraneuronal inclusions that are characteristic of FENIB.
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PMID:Mutant Neuroserpin (S49P) that causes familial encephalopathy with neuroserpin inclusion bodies is a poor proteinase inhibitor and readily forms polymers in vitro. 1188 Mar 76

The plasminogen activator isolated from the venom of the snake Trimeresurus stejnegeri (TSV-PA) triggers plasmin production, along with tissue-type plasminogen activators (t-PA) and urokinase (u-PA). The half-life of TSV-PA in plasma is remarkable. We unveil in this paper two of the molecular mechanisms allowing TSV-PA to escape inhibition by plasma serpins. The first involves a phenylalanine at position 193 (chymotrypsinogen numbering system). Phe(193) distinguishes TSV-PA from nearly all trypsin-like proteinases, having glycine at this position. A mutant of TSV-PA (F193G), in which Phe(193) had been replaced by a glycine, was inactivated by plasminogen activator inhibitor 1 (PAI-1) and alpha(2)-antiplasmin 100-fold more rapidly than the wild-type enzyme. The second mechanism originates from the 37-loop of TSV-PA. Swapping the 37-loop of TSV-PA for either that of t-PA or that of u-PA also increased dramatically the rate of inactivation by PAI-1. Loop swapping and F193G mutations were additive, resulting in a rate of inactivation by PAI-1 that was 4 orders of magnitude higher than for the wild-type enzyme. The potential role of Phe(193) and of the 37-loop in the immunity of TSV-PA toward alpha(1)-antitrypsin and antithrombin is also discussed.
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PMID:The stratagem utilized by the plasminogen activator from the snake Trimeresurus stejnegeri to escape serpins. 1208 98

Fibroblast Growth Factor-2 (FGF2) is a major inducer of neovascularization (angiogenesis). Heparin activates FGF2 by favoring formation of ternary complexes with its cellular receptors (FGFRs). Controlled 2-O-desulfation followed by exhaustive periodate oxidation/borohydride reduction has been used to generate sulfation gaps within the prevalent heparin sequences, building-up arrays of pentasulfated trisaccharides (PST, consisting of a 2-O-sulfated iduronic acid flanked by two N,6-disulfated glucosamines) spaced by reduced, glycol-split uronic acid (sU) residues. The structure of the prevalent sequences of the novel heparin derivative has been confirmed by mono- and two-dimensional NMR analysis. NMR spin-lattice relaxation times (T2) and nuclear Overhauser effects suggest that the sU residues act as flexible joints between the PST sequences and cause a marked distortion of the chain conformation of heparin required for formation of ternary complexes. Since the splitting reaction also occurs at the level of the essential glucuronic acid residue of the active site for antithrombin, the heparin derivative has no anticoagulant activity. However, it fully retains the FGF2-binding ability of the original heparin, as shown by its capacity to protect FGF2 from trypsin cleavage and to prevent the formation of heparan sulfate proteoglycan (HSPG)/FGF2/FGFR1 ternary complexes. However, when compared to heparin it showed a reduced capacity to induce FGF2 dimerization and to favor the interaction of [125I]FGF2 with FGFR1 in HSPG-deficient, FGFR1-transfected CHO cells. Accordingly, it was more effective than heparin in inhibiting the mitogenic activity exerted by FGF2 in cultured endothelial cells. Finally, it inhibited angiogenesis in a chick embrio chorioallantoic membrane (CAM) assay in which heparin is inactive.
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PMID:Short heparin sequences spaced by glycol-split uronate residues are antagonists of fibroblast growth factor 2 and angiogenesis inhibitors. 1217 39

The serpin antithrombin is a slow thrombin inhibitor that requires heparin to enhance its reaction rate. In contrast, alpha1-proteinase inhibitor (alpha1PI) Pittsburgh (P1 Met --> Arg natural variant) inhibits thrombin 17 times faster than pentasaccharide heparin-activated antithrombin. We present here x-ray structures of free and S195A trypsin-bound alpha1PI Pittsburgh, which show that the reactive center loop (RCL) possesses a canonical conformation in the free serpin that does not change upon binding to S195A trypsin and that contacts the proteinase only between P2 and P2'. By inference from the structure of heparin cofactor II bound to S195A thrombin, this RCL conformation is also appropriate for binding to thrombin. Reaction rates of trypsin and thrombin with alpha1PI Pittsburgh and antithrombin and their P2 variants show that the low antithrombin-thrombin reaction rate results from the antithrombin RCL sequence at P2 and implies that, in solution, the antithrombin RCL must be in a similar canonical conformation to that found here for alpha1PI Pittsburgh, even in the nonheparin-activated state. This suggests a general, limited, canonical-like interaction between serpins and proteinases in their Michaelis complexes.
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PMID:Canonical inhibitor-like interactions explain reactivity of alpha1-proteinase inhibitor Pittsburgh and antithrombin with proteinases. 1286 Sep 85

1. Hedgehog plasma was separated by gel filtration on Sephacryl S-200, the fractions resolved by electrophoresis and the electrophoregrams characterized for trypsin, chymotrypsin and elastase inhibiting activities with both low and high molecular weight substrates. Approximate molecular weights were also determined. 2. At least ten protease inhibitors were characterized in hedgehog plasma including three macroglobulins. 3. The hedgehog protease inhibitors were identified by immunoelectrophoresis. Four protease inhibitors showed homologies with specific human, rat or swine antisera. These were alpha 2-and beta-macroglobulins, alpha 1-protease inhibitor, and alpha 2-antithrombin.
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PMID:Identification and characterization of trypsin, chymotrypsin and elastase inhibitors in the hedgehog, Erinaceus europaeus, and their immunological relationships to those of other mammals (rat, pig and human). 1457 75

Human plasma alpha1-antitrypsin inhibits human pancreatic trypsin, chymotrypsin and elastase, which are massively released into the blood stream during acute pancreatitis. To examine whether the plasma proteins of individuals with genetic deficiency of alpha1-antitrypsin are protected against the deleterious action of these enzymes by other inhibitors, we have tested their inhibition by alpha2-antiplasmin and antithrombin. We have determined the inhibition rate constants kass and calculated d(t), the in vivo inhibition time. Surprisingly, trypsin is inhibited faster by alpha2-antiplasmin [kass=2.5 x 10(6) M(-1)S(-1), d(t)=2.3 s] and antithrombin [kass=1.7 x 10(5) M(-1)s(-1), d(t)=5.8 s] than by alpha1-antitrypsin [d(t)=17 s or 116 s in alpha1-antitrypsin-sufficient or alpha1-antitrypsin-deficient individuals, respectively]. Low molecular weight heparin accelerates the inhibition of trypsin by antithrombin by a factor of 16 [d(t)=0.36 s]. Antithrombin and alpha2-antiplasmin are not physiological inhibitors of chymotrypsin and elastase. These enzymes are, however, physiologically inhibited by alpha1-antitrypsin and alpha1-antichymotrypsin even in alpha1-antitrypsin-deficient individuals. We conclude that (i) low molecular weight heparin may be helpful in the management of acute pancreatitis, and (ii) genetically determined alpha1-antitrypsin deficiency probably does not lead to a significantly increased risk of plasma protein degradation during this disease.
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PMID:Inhibition of human pancreatic proteinases by human plasma alpha2-antiplasmin and antithrombin. 1519 3

Human kallikrein 5 (KLK5) is a member of the human kallikrein gene family of serine proteases. Preliminary results indicate that the protein, hK5, may be a potential serological marker for breast and ovarian cancer. Other studies implicate hK5 with skin desquamation and skin diseases. To gain further insights on hK5 physiological functions, we studied its substrate specificity, the regulation of its activity by various inhibitors, and identified candidate physiological substrates. After producing and purifying recombinant hK5 in yeast, we determined the k(cat)/K(m) ratio of the fluorogenic substrates Gly-Pro-Arg-AMC and Gly-Pro-Lys-AMC, and showed that it has trypsin-like activity with strong preference for Arg over Lys in the P1 position. The serpins alpha(2)-antiplasmin and antithrombin were able to inhibit hK5 with an inhibition constant (k(+2)/K(i)) of 1.0 x 10(-) (2)and 4.2 x 10(-4) m(-1) min(-1), respectively. No inhibition was observed with the serpins alpha(1)-antitrypsin and alpha(1)-antichymotrypsin, although alpha(2)-macroglobulin partially inhibited hK5 at high concentrations. We also demonstrated that hK5 can efficiently digest the extracellular matrix components, collagens type I, II, III, and IV, fibronectin, and laminin. Furthermore, our results suggest that hK5 can potentially release (a) angiostatin 4.5 from plasminogen, (b) "cystatin-like domain 3" from low molecular weight kininogen, and (c) fibrinopeptide B and peptide beta15-42 from the Bbeta chain of fibrinogen. hK5 could also play a role in the regulation of the binding of plasminogen activator inhibitor 1 to vitronectin. Our findings suggest that hK5 may be implicated in tumor progression, particularly in invasion and angiogenesis, and may represent a novel therapeutic target.
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PMID:Biochemical and enzymatic characterization of human kallikrein 5 (hK5), a novel serine protease potentially involved in cancer progression. 1571 79

Ecotin is a Escherichia coli-derived protein that has been characterized as a potent inhibitor of serine-proteases. This protein is highly effective against several mammalian enzymes, which includes pancreatic and neutrophil-derived elastases, chymotrypsin, trypsin, factor Xa, and kallikrein. In this work we showed that ecotin binds to human alpha-thrombin via its secondary binding site, and modulates thrombin catalytic activity. Formation of wild type ecotin-alpha-thrombin complex was observed by native PAGE and remarkably, gel filtration chromatography showed an unusual 2:1 ecotin:enzyme stoichiometry. Analysis of the protease inhibitor effects on thrombin biological activities showed that (i) it decreases the inhibition of thrombin by heparin/antithrombin complex (IC50=3.2 microM); (ii) it produces a two-fold increase in the thrombin-induced fibrinogen clotting; and (iii) it inhibits thrombin-induced platelet aggregation (IC50=4.5 microM). Allosteric changes on thrombin structure were then evaluated. Complex formation with ecotin caused a three-fold increase in the rate of thrombin inhibition by BPTI, suggesting a displacement of the enzyme's 60-loop. In addition, ecotin modulated the enzyme's catalytic site, as demonstrated by changes in the fluorescence emission of fluorescein-FPRCK-alpha-thrombin (EC50=3.5 microM). Finally, solid phase competition assays demonstrated that heparin and prothrombin fragment 2 prevents thrombin interaction with ecotin. Altogether, these observations strongly support an ecotin interaction with thrombin anion-binding exosite-2, resulting in modulation of its biological activities. At this point, ecotin might be useful as a new tool for studying thrombin allosteric modulation.
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PMID:Ecotin modulates thrombin activity through exosite-2 interactions. 1684

The aim of the study was the assessment of the concentrations and establishment of mutual relationships between three main protease inhibitors: alpha-1-antitrypsin (AAT), alpha-2-macroglobulin (alpha-2-M) and antithrombin-III (AT-III), and of the total trypsin inhibitory capacity (TIC) in the serum of diabetic and non-diabetic children during adolescence. Forty-nine children (24 girls and 25 boys) with type 1 diabetes mellitus and 24 non-diabetic children (13 girls and 11 boys) were divided according to the Tanner scale into three groups: pre-, peri- and post-pubertal. The concentrations of AAT, alpha-2-M and AT-III were determined by the radial immunodiffusion method on NOR-Partigen plates (Dade-Behring), while TIC was determined by the method using BAPNA as substrate. Means and medians of serum AAT [1.55 g/l, 1.40 (95% confidence interval, 1.42-1.68), respectively] and TIC [10.6 mg trypsin/100 ml, 10.3 (95% CI, 9.5-11.7)] in diabetic children were lower than means and medians of AAT [1.81 g/l, 1.60 (95% CI 1.55-2.07), respectively] and TIC [12.5 mg trypsin/100 ml, 13.2 (95% CI, 10.9-14.1)] in non-diabetic children. A comparison of variables between Tanner groups shows an increasing trend of AAT concentration in diabetic children and a decreasing trend of TIC in non-diabetic subjects. In contrast to pre- and peri-puberty, no correlations were found in the postpubertal period between the studied parameters, either in diabetic or non-diabetic patients. Hyperglycaemia and the duration of diabetes were found to have a significant association with alpha-2-M and AT-III concentrations, but not with AAT serum concentrations. The concentrations and correlations between serum protease inhibitors in diabetic children during adolescence are disrupted compared with non-diabetic children. Taking into account the unfavourable consequences of vascular complications resulting from serum trypsin inhibitor changes and protease- antiprotease imbalance, diabetic children are at greater risk of this occurring during adolescence.
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PMID:Serum protease inhibitor concentrations and total antitrypsin activity in diabetic and non-diabetic children during adolescence. 1721 56


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