biotinyl-n-hydroxysuccinimide-ester and Hemolysis

To determine posttransfusion viability (PTV) of canine RBC stored for 35 days in an additive solution, using in vitro biotinylation and technetium-99m and chromium-51 (99mTc/51Cr) labeling techniques.. 6 random source, adult dogs.. RBC from dogs were labeled with N-hydroxysuccinimide biotin (NHS-biotin) or 99mTc/51Cr in a crossover design. One unit (450 ml) of whole blood was collected from each dog, processed into packed RBC, and stored for 35 days in an additive solution. The process was repeated at a later date, so that each dog had 2 units stored under similar conditions. Stored autologous RBC were then labeled with either NHS-biotin or 51Cr and reinfused. When 51Cr was used, labeled cells were infused simultaneously with freshly drawn cells labeled with 99mTc. Posttransfusion viability of labeled cells was determined by dividing counts per minute (99mTc/51Cr) or percentage of cells (NHS-biotin) labeled at 24 hours by counts per minute or percentage of cells labeled after infusion.. Mean PTV of packed RBC stored for 35 days in an additive system was 80% when determined by biotinylation, 83% as determined by 99mTc/ 51Cr, and 81% as determined by 51Cr alone.. In vitro biotinylation provides an acceptable, nonradioisotopic means of determining PTV of stored canine packed RBC.. NHS-biotin can be used to determine maximal storage time of canine RBC prepared for transfusion purposes.

Topics: Adenosine Triphosphate; Animals; Biotin; Biotinylation; Blood Preservation; Cell Survival; Chromium Radioisotopes; Cross-Over Studies; Dogs; Erythrocyte Transfusion; Erythrocytes; Female; Hemolysis; Male; Succinimides; Technetium

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. In the present work we have studied the interaction of B-RBC, which are not complement susceptible, with immobilized avidin and their consequent susceptibility to lysis by complement. B-RBC adhered tightly to avidin-coated surfaces and were rendered susceptible to lysis by autologous serum. A long biotin ester provided more effective binding of the B-RBC to immobilized avidin and greater lysis by complement, than a short biotin ester. Based on these results, we have hypothesized that targeting of serum-stable drug-loaded B-RBC attained by step-wise administration of b-Ab and streptavidin may provide target-sensitive lysis of B-RBC. To confirm this hypothesis, we have studied b-Ab and streptavidin mediated targeting of B-RBC to immobilized antigen. Step-wise addition of biotinylated antibody, avidin or streptavidin and b-RBC caused specific binding of B-RBC to immobilized antigen and their subsequent lysis by autologous serum. Therefore, our results obtained in an in vitro model demonstrate that B-RBC might be used for targeting and local release of drug.

Topics: Aminocaproates; Antigens; Avidin; Bacterial Proteins; Biotin; Blood; Cells, Immobilized; Complement System Proteins; Drug Carriers; Erythrocytes; Hemolysis; Humans; Immunoglobulin G; Streptavidin; Succinimides

Reversible biotinylation of human C1q without impairment of its physiologic functions has allowed us to develop a simple and rapid purification method for C1q receptor (C1qR). The biotinylating reagent, NHS-SS-biotin (Mr 606.7) contains an extended connector or cross-linker arm which limits steric hindrance and is bridged by a cleavable disulfide bond to the biotin component. Biotinylation was achieved by mixing C1q (in PBS, pH 7.4) with NHS-SS-biotin (dissolved in dimethyl formamide) in a 50:1 v/v and 1:25 mol/mol ratio and allowing the reaction to continue at room temperature for 4 h. The mixture was then dialyzed against PBS pH 7.4 (2 X 1 liter) and analyzed by SDS-PAGE and hemolytic assay using C1q depleted serum. Under these conditions neither denaturation of the protein nor loss of hemolytic activity was evident. Such biotinylated C1q (Bio-C1q) was used to pull out the C1qR from detergent-solubilized (1% NP-40 in PBS, pH 7.4 plus inhibitors) 125I-surface labeled membrane solution that had been first centrifuged (1 h, 45,000 X g, 4 degrees C) and then sequentially precleared with immobilized protein A, protein A-IgG and gelatin. The mixture of Bio-C1q and membrane solution was then incubated (20 h, 4 degrees C), applied to immobilized avidin (equilibrated with PBS, pH 7.4, 0.1% NP-40) and after washing, the bound C1qR was eluted with equilibrating buffer containing 1 M NaCl, and the C1q by same buffer containing 100 mM DTT. The eluted C1qR contained a major Mr 70,000 molecule which upon reduction electrophoresed with an apparent Mr of 85,000-90,000 as assessed by SDS-PAGE analysis. In addition, a faint single chain band of 30-40 kDa was eluted with the major band and may represent a non-covalently associated part of the C1qR molecule.

Topics: Avidin; Biotin; Carrier Proteins; Complement Activating Enzymes; Complement C1; Complement C1q; Disulfides; Electrophoresis, Polyacrylamide Gel; Enzymes, Immobilized; Hemolysis; Humans; Hyaluronan Receptors; Immunoelectrophoresis; Membrane Glycoproteins; Mitochondrial Proteins; Receptors, Complement; Structure-Activity Relationship; Succinimides

Purified human C3 was biotinylated using the biotinyl-N-hydroxysuccinimide imidoester (BNHS). Depending on the input of BNHS, from three to six molecules of biotin were incorporated per C3 molecule. The biotinyl-C3 retained over 90% of its specific hemolytic activity and when bound to sheep erythrocytes maintained its ability to adhere to human C3b receptors. These functions could be blocked by avidin. The biotinyl-C3 was fragmented normally to C3c and C3d in human serum and adsorption with avidin-Sepharose indicated that biotin moities were present in both fragments. Fluorescein-conjugated avidin reacted well with cell-bound biotinyl-C3b and was useful for quantitating C3 fixation by flow cytometry. Ferritin-conjugated avidin was used as a marker to characterize the distribution of biotinyl-C3b on erythrocytes by electron microscopy. These results suggest that biotinyl-C3 and avidin derivatives may be very useful tools for studies of many of the biological functions of C3.

Topics: Avidin; Biotin; Complement C3; Flow Cytometry; Hemolysis; Humans; Immunoelectrophoresis; Microscopy, Electron; Protein Conformation; Succinimides