Negatively charged polymers protect antinuclear antibody against inactivation by acylating agents.

For many practical applications, monoclonal antibodies must be chemically modified without any significant loss in their immunoreactivity. In some situations, however, the amino acid residue crucial for antibody activity may be highly reactive toward the modifying agent, which results in antibody inactivation. The method to prevent inactivation of a modification-sensitive antinuclear monoclonal antibody by acylating agents was developed.

p-Nitrophenylcarbonyl-PEG-PE-liposomes: fast and simple attachment of specific ligands, including monoclonal antibodies, to distal ends of PEG chains via p-nitrophenylcarbonyl groups.

We have attempted to simplify the procedure for coupling various ligands to distal ends of liposome-grafted polyethylene glycol (PEG) chains and to make it applicable for single-step binding of a large variety of a primary amino group-containing substances, including proteins and small molecules. With this in mind, we have introduced a new amphiphilic PEG derivative, p-nitrophenylcarbonyl-PEG-1,2-dioleoyl-sn-glycero-3-phosphoethanolamine (pNP-PEG-DOPE), synthesized by reaction of DOPE with excess of bis(p-nitrophenylcarbonyl)-PEG in a chloroform/triethylamine mixture. pNP-PEG-DOPE readily incorporates into liposomes via its PE residue, and easily binds primary amino group-containing ligands via its water-exposed pNP groups, forming stable and non-toxic urethane (carbamate) bonds.

Coagulation factor XIIIa undergoes a conformational change evoked by glutamine substrate. Studies on kinetics of inhibition and binding of XIIIA by a cross-reacting antifibrinogen antibody.

Coagulation factor XIIIa, plasma transglutaminase (endo-gamma-glutamine:epsilon-lysine transferase EC 2.3.2.

Thrombin-induced thromboxane synthesis by human platelets. Properties of anion binding exosite I-independent receptor.

These studies have examined the effects of thrombin-related agonists in stimulating thromboxane production by human platelets. The results presented show that (1) the maximal response elicited by thrombin receptor agonist peptide (TRAP) stimulation was 40% to 50% of that seen with thrombin or the thrombin mutant Thrombin Quick I; (2) pretreatment of platelets with prostaglandin E1 or genistein resulted in differential inhibition of thromboxane production in response to TRAP compared with either enzyme agonist; (3) an antibody to the thrombin receptor cleavage site that inhibits increases in intracellular [Ca2+] only partially reduced thromboxane production in response to 5 nmol+L thrombin and 15 nmol/L Thrombin Quick I; (4) preincubation with 20 mumol/L TRAP resulted in desensitization to further stimulation by 100 mumol/L TRAP, but not by 100 nmol/L thrombin; and (5) the response to thrombin after TRAP desensitization was completely inhibited by the tyrosine kinase inhibitor genistein and was independent of an intracellular [Ca2+] flux, The cumulative results may be explained by the existence of two proteolytically activated receptors that result in thromboxane production in response to thrombin. One is the thrombin receptor/substrate, PAR-1.

Target-sensitive immunoerythrocytes: interaction of biotinylated red blood cells with immobilized avidin induces their lysis by complement.

Red blood cells (RBC) coated with antibody (immunoerythrocytes) may be useful for drug targeting. Previously we have developed a methodology for avidin (streptavidin)-mediated attachment of biotinylated antibodies (b-Ab) to biotinylated RBC (B-RBC). We have observed that binding of avidin to B-RBC in suspension leads to their complement-mediated lysis by autologous serum.

Monoclonal antibody directed to a fibrinogen A alpha #529-539 epitope inhibits alpha-chain crosslinking by transglutaminases.

A monoclonal antibody (5A2) recognizing a segment near the C-terminus of the fibrin(ogen) A alpha-chain (A alpha #529-539) was found to inhibit alpha-chain crosslinking catalyzed by coagulation factor XIIIa and by tissue-transglutaminase. The rapid gamma-chain cross-linking by factor XIIIa was not affected by the antibody. Results obtained from direct binding and competitive immunoassay established that the antigenic determinant recognized by 5A2 was included within the CNBr fragment referred to as CNBr X (A alpha #518-584), and that it survived trypsin digestion but was destroyed by treatment with Staph V-8 protease or chymotrypsin.

Contact with the N termini in the central E domain enhances the reactivities of the distal D domains of fibrin to factor XIIIa.

The reaction of Factor XIIIa with fibrin is the last enzyme-catalyzed step on the coagulation cascade, leading to the formation of a normal blood clot. The finding that fibrin is preferred by the cross-linking enzyme about 10-fold over the circulating fibrinogen suggests the operation of a unique substrate-level control for the orderly functioning of the physiological process in the forward direction. An important task is to elucidate the molecular mechanism for the transmission of the signal generated by the thrombin-catalyzed cleavage in the central E domain of fibrin to the distant Factor XIIIa-reactive glutamine residues.

Substrate specificity of collagenolytic proteases from the king crab Paralithodes camtschatica.

Substrate specificity of two collagenolytic proteases from the king crab Paralithodes camtschatica has been studied. Both proteases are shown to hydrolyze effectively type I and III collagens, gelatin and fibrinogen. The variety of products formed during the enzymatic hydrolysis of the proteins appeared to be different for crab proteases A and C.

Interaction of avidin-carrying red blood cells with nucleated cells.

In vivo application of red blood cells (RBC) modified with avidin-biotin complex has been suggested recently for various purposes. However, avidin attachment to RBC alters their biocompatibility. Thus, it has been described that avidin-carrying biotinylated RBC were lysed by the complement.

[Tannin-mediated attachment of avidin to erythrocytes does not cause their lysis by complement].

It was shown previously that avidin attachment to biotinylated erythrocytes induced their lysis by a homologous complement via an alternative pathway. This phenomenon hindered the use of avidin-coated immuno-erythrocytes as carriers for drug targeting. In the present work it has been demonstrated that avidin attachment to erythrocytes via a cross-linking reagent (tannin) does not induce any lysis by the complement.

Tannin-mediated attachment of avidin provides complement-resistant immunoerythrocytes that can be lysed in the presence of activator of complement.

It was shown previously that avidin attachment to biotinylated erythrocytes induces their lysis by homologous complement via the alternative pathway. This phenomenon hinders the use of avidin-coated immunoerythrocytes as carriers for drug targeting. In the present work we demonstrated that attachment of avidin to erythrocytes via the cross-linking agent tannin does not induce their lysis by complement.

Avidin-induced lysis of biotinylated erythrocytes by homologous complement via the alternative pathway depends on avidin's ability of multipoint binding with biotinylated membrane.

It was reported that avidin and streptavidin induce lysis of prebiotinylated red blood cells via the alternative pathway of both homologous and heterologous complement. Both of these proteins have four biotin-binding sites, providing a polyvalent interaction with biotinylated components of the erythrocyte membrane. We have compared the effects of mono- and multipoint avidin attachment on the sensitivity of biotinylated erythrocytes to lysis by the complement system.

Avidin attachment to biotinylated erythrocytes induces homologous lysis via the alternative pathway of complement.

Noncovalent attachment of avidin to the membrane of prebiotinylated red blood cells (RBCs) induces lysis via the alternative pathway of complement (APC). Lysis is not species-dependent; RBCs from humans, rabbits, rats, and sheep were lysed with both autologous and all heterologous sera. Both biotinylated and native cells were not lysed.

Streptavidin-induced lysis of homologous biotinylated erythrocytes. Evidence against the key role of the avidin charge in complement activation via the alternative pathway.

It is shown that non-covalent attachment of streptavidin, as well as of avidin, to biotinylated human erythrocytes induces homologous hemolysis by complement. Rabbit antiserum against human C3 is found to inhibit the lysis specifically as compared with non-immune rabbit serum. Efficiency of lysis inhibition is greater for avidin- and streptavidin-induced lysis of biotinylated human erythrocytes than for antibody-sensitized sheep erythrocytes.

Avidin acylation prevents the complement-dependent lysis of avidin-carrying erythrocytes.

Non-covalent binding of avidin to biotinylated erythrocytes results in complement-dependent haemolysis. Biotinylated erythrocytes, as well as native cells, are not lysed by complement. Complement activation requires a tight contact between avidin and the erythrocyte membrane, since avidin does not in itself activate complement and does not inhibit lysis of sensitized sheep erythrocytes.

Visualization of apo B, fibrinogen/fibrin, and fibronectin in the intima of normal human aorta and large arteries and during atherosclerosis.

Apolipoprotein B (apo B), fibrinogen/fibrin, blood platelets, factor VIII-related antigen of the blood coagulation system, and smooth muscle cells (SMC) were identified in the intima of normal and atherosclerotic human aorta and large arteries by the indirect immunofluorescence technique. Fibrinogen/fibrin was revealed by a monoclonal antibody (monAb) against the C-terminal region of human fibrinogen A alpha-chain. Fibronectin was visualized by monAb to the cellular form and against an epitope shared by different fibronectin subunit variants.

[Apo B, fibrinogen-fibrin and fibronectin in the intima of the normal human aorta and large arteries and in atherosclerosis].

Apo B, fibrinogen/fibrin, fibronectin, thrombocytes, factor VIII of the blood coagulation and smooth muscle cells (SMC) were identified by the immunofluorescence method in the intima of aorta and big arteries under normal conditions and in atherosclerosis. Monoclonal antibodies (MCA) against C-end fragments of A alpha-fibrinogen chain were used in the study of fibrinogen/fibrin. MCA reacting with plasma fibronectin and those reacting with A-area of the polypeptide chain specific for the cell fibronectin were used for the identification of fibronectin.

[Aldosterone content of the blood and tissues in rats with an altered level of adrenergic activity].

The content of aldosterone (A) was studied in rat adrenal glands, blood plasma and peripheral tissues--in the myocardium, skeletal muscles, thymus and liver--1 h after the administration of alpha-adrenergic stimulator noradrenaline and beta-adrenergic stimulator isoprenaline and after simultaneous administration of alpha- and beta-blockers and a sympatholytic agent (pyrroxan, propranolol and bretylium tosylate respectively). Adrenergic stimulation did not change the level of A in the adrenal glands, raised its blood concentration and, to a greater extent, its level in the peripheral tissues. A marked increase in the blood concentration of A resulted from isoprenaline and its accumulation in tissues--from noradrenaline.

[Local prevention of thrombosis in the dog carotid artery using magnetically concentrated erythrocytes loaded with aspirin].

Thrombosis was induced in both canine carotid arteries by means of vascular wall flap inversion into their lumens. A red, completely occluding thrombus was formed inside the vessel 4 to 5 hours later. SmCo5 magnet was secured externally to one of the arteries.

Immunotargeting of erythrocyte-bound streptokinase provides local lysis of a fibrin clot.

The creation of an anticollagen antibody-erythrocyte-streptokinase complex has been described. Immobilization of both proteins on erythrocyte membrane has been performed using an avidin-biotin interaction. Modification of streptokinase with (6-biotinylamido)hexanoic acid N-hydroxysuccinimide ester at the concentration of 1.

Carrier-directed targeting of liposomes and erythrocytes to denuded areas of vessel wall.

Immunomorphological staining of specimens prepared from human carotid arteries with anti-collagen type I antibodies reveals large amounts of type I collagen in the subendothelium of lipid fibrous plaques. Collagen type I-containing structures, once in direct contact with blood after plaque rupture, can serve as potential targets for selective delivery of liposomes and erythrocytes to these areas. To verify this rationale, [14C]cholesterol oleate-containing liposomes were conjugated with bovine or human anti-collagen type I antibodies or human plasma fibronectin.