Effect of carbohydrate modification on the localization of human polyclonal IgG at focal sites of bacterial infection.

Radiolabeled human polyclonal IgG localizes at focal sites of infection/inflammation. Previous studies have sought to identify the mechanism of localization, but the relative importance of specific antigen recognition by individual antibody molecules, binding to Fc receptors on inflammatory cells and nonspecific processes such as increased tissue permeability remains uncertain. This study was performed to evaluate the specific role of Fc receptor binding as a mechanism of localization.

Anti-CD3 monoclonal antibody therapy. An approach toward optimization by in vitro analysis of new anti-CD3 antibodies.

Several problems remain associated with anti-CD3 monoclonal antibody therapy, including first-dose reactions, recurrent rejection, and the host humoral response to the xenogeneic mAb. One approach toward optimization of anti-CD3 mAb therapy involves the use of anti-CD3 mAbs of defined idiotype, isotype, and epitope specificity, so that the desired T cell activation and suppression properties are obtained and neutralization by antiidiotypic antibody is avoided. The purpose of the present study was to define the contribution of mAb isotype and epitope specificity in determining T cell activation and suppression potencies and to evaluate the idiotypic relationships among ten anti-CD3 mAbs and one anti-TCR alpha beta mAb selected for this study.

Imaging focal sites of bacterial infection in rats with indium-111-labeled chemotactic peptide analogs.

Four DTPA-derivatized chemotactic peptide analogs: ForNleLFNleYK-DTPA (P1), ForMLFNH(CH2)6NH-DTPA (P2), ForNleLFK(NH2)-DTPA (P3), and ForNleLFK-DTPA (P4), were synthesized and evaluated for in vitro bioactivity and receptor binding. The peptides were radiolabeled with 111In by transchelation and their biodistribution determined in rats at 5, 30, 60 and 120 min after injection. Localization at sites of infection was determined by scintillation camera imaging in animals with deep-thigh infection due to Escherichia coli.

Effect of isoelectric point on biodistribution and inflammation: imaging with indium-111-labelled IgG.

Electrostatic effects play an important role in protein interactions and may alter the biodistribution of antibodies. To study the effect of molecular charge of the biodistribution and infection imaging properties of human polyclonal immunoglobulin G (IgG), its isoelectric point was varied by changing the level of diethylene triamine penta-acetic acid (DTPA) substitution: 0.8, 0.