beta-acetyldigoxin and gitoxin

Antibody 26-10, obtained in a secondary immune response, binds digoxin with high affinity (K(a) = 1.3 x 10(10) M(-1)) because of extensive shape complementarity. We demonstrated previously that mutations of the hapten contact residue HTrp-100 to Arg (where H refers to the heavy chain) resulted in increased specificity for digoxin analogs substituted at the cardenolide 16 position. However, mutagenesis of H:CDR1 did not result in such a specificity change despite the proximity of the H:CDR1 hapten contact residue Asn-35 to the cardenolide 16 position. Here we constructed a bacteriophage-displayed library containing randomized mutations at H chain residues 30-35 in a 26-10 mutant containing Arg-100 (26-10-RRALD). Phage were selected by panning against digoxin, gitoxin (16-OH), and 16-acetylgitoxin coupled to bovine serum albumin. Clones that retained wild-type Asn at position 35 showed preferred binding to gitoxin, like the 26-10-RRALD parent. In contrast, clones containing Val-35 selected mainly on digoxin-bovine serum albumin demonstrated a shift back to wild-type specificity. Several clones containing Val-35 bound digoxin with increased affinity, approaching that of the wild type in a few instances, in contrast to the mutation Val-35 in the wild-type 26-10 background, which reduces affinity for digoxin 90-fold. It has therefore proven possible to reorder the 26-10 binding site by mutations including two major contact residues on opposite sides of the site and yet to retain high affinity for binding for digoxin. Thus, even among antibodies that have undergone affinity maturation in vivo, different structural solutions to high affinity binding may be revealed.

Topics: Acetyldigoxins; Animals; Antibodies, Monoclonal; Arginine; Binding Sites; Crystallography, X-Ray; Digoxin; Enzyme-Linked Immunosorbent Assay; Genetic Vectors; Haptens; Kinetics; Mice; Models, Chemical; Mutagenesis, Site-Directed; Mutation; Protein Binding; Serum Albumin; Valine

The potency of 17 derivatives of 16 alpha-gitoxin was tested in the isolated atrium and heart of the guinea pig and the contractility-increasing activity of the 16 alpha-gitoxin 16 alpha-acetate was compared with that of 16 alpha-gitoxin in the anesthetized dog. The potency of 16 alpha-gitoxin was increased by the substitution of 16 alpha-OH for 16 alpha-methyl ether, 16 alpha-acetate and 16 alpha-nitrate. Substitution of the 16 alpha-acetyl group for substituents with a higher molar volume diminished this enhanced potency. Variation in the digitoxose moiety caused an increase or decrease in potency depending on the position and number of the substituted OH groups. In spite of changes in 16 alpha-OH, the low influence on rhythmicity persisted, as was found in experiments in the dog.

Topics: Acetyldigoxins; Animals; Arrhythmias, Cardiac; Cardiac Glycosides; Digoxin; Dogs; Dose-Response Relationship, Drug; Female; Guinea Pigs; Heart; Heart Rate; Isomerism; Male; Myocardial Contraction; Stimulation, Chemical; Structure-Activity Relationship