[Kinetics of immunoglobulin G transport through the multi-layer epithelial-hematic barrier of the respiratory tract]. / Kinetika transporta immunoglobulina G cherez mnogosloinyi épitelial'no-gematicheskii bar'er dykhatel'nykh putei.

A new class of drugs is now utilized for in vivo diagnoses and therapy of many widespread diseases. In these pharmacological and diagnostic preparations the active substance is conjugated with a vector which transports the drug to specific biological targets. Monoclonal antibodies are the most commonly used vectors: estimation of their permeability through multilayer and unilayer biomembranes is an important step in the analysis of efficiency of vector drugs. Experiments with Sprague-Dawley rats (mature females weighing 500 to 160 g) have demonstrated the ability of immunoglobulins G to penetrate through the respiratory epithelial-hematic barrier. Using solid phase ELISA, it was found that 5-25% of the total amount of mouse antiinsulin immunoglobulins G1 injected into the trachea under hexenal anesthesia can penetrate into the blood plasma. Accumulation of antibodies in the blood begins 4 hours and ceases 32 hours after the drug application in a dose of 400 micrograms. The kinetics of transmembrane transport is described by an S-like saturation function: C(t) = Cmax/(1+e-(at-b]. Penetration of monoclonal antibodies into the blood is accompanied by their distribution in the organs and tissues as well as by their clearance from the blood plasma. The clearance of monoclonal antibodies is characterized by a 24 hour half-life and is described by an exponential equation: C(t) = C0 x exp-kt. An algorithm for the interaction of these processes which should be taken into account during measurements of the transport of monoclonal antibodies and their complexes through biomembranes is proposed.(ABSTRACT TRUNCATED AT 250 WORDS)

[Study of the affinity characteristics of monoclonal antibodies by solid-phase immunoenzyme analysis]. / Issledovanie affinnykh kharakteristik monoklonal'nykh antitel v metode tverdofaznogo immunofermentnogo analiza.

An approach is proposed for measuring the binding constant (Kb) for monoclonal antibodies (MA) interacting with an immobilized antigen in indirect ELISA. This approach allows the measurement of optical density (A405) in the peroxidase reaction initiated by the conjugate at different concentrations (C0) of antibodies. Using the Scatchard plots, the dependence of A405/C0 = f (A405) for the whole range of MA concentrations was examined, and the tangential of the slope (tg alpha = Kb) of the linear portion of the antigen molecule was calculated. Analysis of MA affinity parameters by using this approach may find wide use in immunodiagnostic studies aimed at measuring antigen and antibody concentrations in biological fluids as well as for estimating the efficiency of vector drugs in which the diagnostic or therapeutic component is conjugated with the vector (MA or F(ab) fragment) responsible for the drug transport to target cells. The method proposed was used for testing mouse (BALB/C) monoclonal antibodies (IgG1) to pig insulin produced by various hybridomas as well as for estimating the effect on MA of pH, temperature and hydrophobization. The minimal detectable concentration (method sensitivity) was found to depend on Kb.

Effective inhibition of viral reproduction by hydrophobised antiviral antibodies.

A method is proposed for the inhibition of viral reproduction in cells by means of fatty-acylated antiviral antibodies which, in contrast to the unmodified antibodies, have the ability to enter the cells. The potential of this technique is demonstrated in experiments involving inhibition of the reproduction of various strains of influenza virus and respiratory syncytial virus.