Complex of Angiotensin II with Modified Low-Density Lipoproteins: Behavioral and Hemodynamic Effects in Rats.

Endogenous multiple modified LDL (mLDL) and the renin-angiotensin system play a significant role in the development of atherosclerosis. It has been found that by behavioral and hemodynamic parameters the physiological activity of angiotensin II (Ang II) in combination with mLDL is considerably modified due to weakening of its diuretic effect and the inversion of hypertensive and tachyarrhythmic effects. Atherosclerosis is a long-term pathological process, so a single administration of artificially synthesized Ang I-mLDL complexes can be considered a model of the first contact of the body with pathogenic factors.

LOCAL RENIN-ANGIOTENSIN SYSTEM OF SMALL INTESTINE.

The renin-angiotensin system (RAS) is the universal multiple-factor regulator of many vital processes at the organismal, tissue and cellular levels. Classical (circulating) RAS provides maintenance of arterial pressure, a water and salt balance, lipid and glucose homeostasis. Local tissue RAS are functioning independently and participating in metabolic processes and protective reactions.

Estimation of Functional Activity of Ionized Calcium for Complement System Reactivity Assessment.

We proposed a new indicator for evaluation of functional activity of Ca(2+) in human blood serum based on lysis of sheep erythrocytes with 10% human blood serum in the presence of 0.55 mM ethylene glycol tetraacetic acid at 37°C for 10 min. After incubation, the degree of sheep erythrocytes lysis inhibition is estimated: inhibition of complement hemolytic activity <30% is considered as high functional Са(2+) activity, inhibition by 31-70% corresponds to normal activity, and >71% indicates low activity.

[Estimation of atherogenic immune complexes containing modified lipoproteins in complement fixation tests].

A method for determining atherogenicity of the immune complexes containing multiple modified low-density lipoprotein (mmLDL) in complement fixation test has been found. In the proposed method, the precipitate immune complexes containing mmLDL (IC mmLDL) was prepared from human serum by treating it with buffer (8.3% of th PEG 3350 and 3.

Expression of duodenase-like protein in epitheliocytes of Brunner's glands in human duodenal mucosa.

A duodenase, a protease structurally related to human cathepsin G, was found earlier in bovine duodenal mucosa. It was demonstrated that under the influence of duodenase an enteropeptidase zymogen is activated in vitro showing the possible participation of duodenase in the cascade of activation of digestive enzymes. To identify a duodenase functional analog in human duodenum, an immunofluorescence study of duodenal mucosa was conducted by confocal microscopy using antibodies to human cathepsin G and to bovine duodenase.

Serine proteases in immune protection of the small intestine.

The gastrointestinal tract is subject to a huge antigenic load, which is especially significant in the intestinal lumen. Being the connecting link between the organism and the external environment, the small intestine fulfils not only digestive and transport functions, but also protective ones and acts as a selective barrier for the flow of nutrients. This review considers proteases of the protective system of small intestine cells, their biochemical properties and activation mechanisms, and involvement in biochemical processes responsible for normal functioning and defense reactions of the intestine.

Serine proteases of small intestine mucosa--localization, functional properties, and physiological role.

In this review we present data about small intestine serine proteases, which are a considerable part of the proteolytic apparatus in this major part of the gastrointestinal tract. Serine proteases of intestinal epitheliocytes, their structural-functional features, cellular localization, physiological substrates, and mechanisms of activity regulation are examined. Information about biochemical and functional properties of serine proteases is presented in a common context with morphological and physiological data, this being the basis for understanding the functional processes taking place in upper part of the intestine.

Effect of reactive center loop structure of antichymotrypsin on inhibition of duodenase activity.

Interaction between duodenase (a granase family member) from bovine duodenal mucosa and recombinant antichymotrypsin (rACT) and its P1 variants has been studied. Association rate constants (k(a)) were 11, 6.8, and 17 mM(-1).

[Various effects of serine proteinases, activated protein C and duodenase, on mast cells].

Some serine proteinases of haemostasis can regulate blood clotting and inflammation acting at proteinase-activated receptors (PARs). It is known that the anticoagulant proteinase, activated protein C (APC), exhibits anti-inflammatory effects on endothelial cells and macrophages and this involves endothelial protein C receptor--EPCR and proteinase-activated receptor--PAR1. We have studied the effect of wide range of APC concentrations on functional activity of rat peritoneal mast cells (PMC), which secrete the proinflammatory mediators, under normal conditions and during acute inflammation in rats.

[Duodenase activates rat peritoneal mast cells via protease-activated receptors of type 1].

It was found that duodenase, a serine protease from the bovine duodenum, activates rat peritoneal mast cells (PMC) in vitro presumably via protease-activated receptors (PARs). Like thrombin (a serine protease from the blood coagulation system) and the PAR1 agonist peptide (PAR1-AP), duodenase was shown to accelerate the secretion of beta-hexosaminidase (a marker of cell degranulation) by PMC in a dose-dependent manner. The blockage of the proteolytic activity of duodenase toward the substrate Tos-Gly-Pro-Lys-pNA by the soybean Bauman-Birk protease inhibitor substantially reduced (by 40%) the ability of duodenase to stimulate the secretory activity of PMC.

[The role of PAR1 in the protective action of activated protein C in the non-immune mast cell activation].

Activated protein C (APC) regulates the functional activity of mast cells by reducing release of beta-hexosaminidase, the marker of mast cell degranulation. APC could modulate the cell secretion of both: the rest mast cells and the activated cells with degranulators, such as proteinase-activated receptor agonist peptide (PAR1-AP) and compound 48/80. PAR1 desensitization with thrombin abolishes the effect of low APC concentration (< or =1,5 nM) on beta-hexosaminidase release by mast cells.

Interaction between human alpha2-macroglobulin and duodenase, a serine proteinase with dual specificity.

Interaction between a serine proteinase from bovine duodenum and human serum alpha(2)-macroglobulin (alpha(2)-MG) was studied. alpha(2)-MG is established to be one of the most effective duodenase inhibitors. The enzyme is completely inhibited in less than 30 sec at equimolar ratio of the inhibitor and enzyme (concentration 2 x 10(-8) M).

Cloning and molecular modeling of duodenase with respect to evolution of substrate specificity within mammalian serine proteases that have lost a conserved active-site disulfide bond.

Mammalian serine proteases such as the chromosome 14 (Homo sapiens, Mus musculus) located granzymes, chymases, cathepsin G, and related enzymes including duodenase collectively represent a special group within the chymotrypsin family which we refer to here as "granases". Enzymes of this group have lost the ancient active-site disulfide bond Cys191-Cys220 (bovine chymotrypsinogen A numbering) which is strongly conserved in classic serine proteases such as pancreatic, blood coagulation, and fibrinolysis proteases and others (granzymes A, M, K and leukocyte elastases). We sequenced the cDNA encoding bovine (Bos taurus) duodenase, a granase with unusual dual trypsin-like and chymotrypsin-like specificity.

[Interaction of duodenase with human blood serpins].

The interaction of duodenase, a new serine protease from a small group of Janus-faced proteases, with serpins, alpha 1-protease inhibitor (alpha 1-PI) and antichymotrypsin (ACT) from human blood serum, was studied. The stoichiometry of the inhibition process was found to be 1.2 and 1.

Graspases--a special group of serine proteases of the chymotrypsin family that has lost a conserved active site disulfide bond.

In this report we propose a new approach to classification of serine proteases of the chymotrypsin family. Comparative structure-function analysis has revealed two main groups of proteases: a group of trypsin-like enzymes and graspases (granule-associated proteases). The most important structural peculiarity of graspases is the absence of conservative "active site" disulfide bond Cys191-Cys220.

Study on interaction between duodenase protease with dual specificity and inhibitors of bowman-birk family.

The interaction between duodenase and inhibitors of Bowman-Birk type from soybeans (BBI) and lima beans (LBI) was investigated. Duodenase was shown to interact only with antichymotrypsin site of these inhibitors. The inhibition constants of duodenase by BBI, LBI, BBI-trypsin and LBI trypsin complexes were 4, 23, 400, 600 (n)M respectively.

Proteolytic action of duodenase is required to induce DNA synthesis in pulmonary artery fibroblasts.

Duodenase is a 29-kDa serine endopeptidase that displays selective trypsin- and chymotrypsin-like substrate specificity. This enzyme has been localized to epitheliocytes of Brunner's glands, and as described here, to mast cells within the intestinal mucosa and lungworm-infected lung, implying an important additional role in inflammation and tissue remodelling. In primary cultures of pulmonary artery fibroblasts, duodenase induced a concentration-dependent increase in [3H]thymidine incorporation with a maximal effect observed at 30 nm.

Interaction between duodenase and alpha1-proteinase inhibitor.

The interaction between duodenase, a newly recognized serine proteinase belonging to the small group of Janus-faced proteinases, and alpha1-proteinase inhibitor (alpha1-PI) from human serum was investigated. The stoichiometry of the inhibition was 1.2 mol/mol.

Comparative study of the action of bovine duodenal proteinases (duodenases) on polypeptide substrates.

A comparative study of substrate specificity of bovine duodenal proteinases--chymotrypsin-like duodenase (ChlD) and dual-specificity duodenase (dsD)--was carried out using oligopeptide substrates (human proinsulin, glucagon, melittin, angiotensinogen fragment 1-14). ChlD displayed mainly chymotrypsin-like properties towards these substrates, hydrolyzing peptide bonds carboxy-terminally to bulky aliphatic or aromatic residues. In melittin, ChlD additionally cleaved peptide bonds after Thr and Ser residues.

Crystal structure of bovine duodenase, a serine protease, with dual trypsin and chymotrypsin-like specificities.

The three-dimensional structure of duodenase, a serine protease from bovine duodenum mucosa, has been determined at 2.4A resolution. The enzyme, which has both trypsin-like and chymotrypsin-like activities, most closely resembles human cathepsin G with which it shares 57% sequence identity and similar specificity.