High-affinity monoclonal antibodies specific for the cardiac glycoside digoxin provide a useful system for the study of structure-function relationships between antibody combining site and specific ...antigenic determinants. Fifteen high-affinity monoclonal anti-digoxin antibodies were produced when spleen cells from A/J mice immunized with digoxin coupled to human serum albumin (Dig-HSA) were fused with the non-secreting murine myeloma Sp2/0 cell line. Each subcloned hybridoma antibody was analyzed for affinity and specificity for structurally related cardiac glycosides by a radioimmunoassay based on the adsorption of free 3Hdigoxin to dextran-coated charcoal. All of the anti-digoxin hybridoma proteins demonstrated high affinity constants ranging from 10(9) to 10(12) M-1. Using seven different analogs of digoxin, binding specificities of the monoclonal antibodies were assessed by inhibition radioimmunoassay. The 15 hybridomas produced from fusions involving five mice could be divided into eight sets on the basis of these binding specificities. Certain antibodies exhibit a preference for the aglycone portion of digoxin, while others are more specific for the tridigitoxose sugar moiety of digoxin. Monoclonal antibody H- and L-chains were subjected to N-terminal amino acid sequence analysis. The antibodies may be divided into several sequence homology sets for both H- and L-chains. In most instances, homologous heavy chains are associated with a set of homologous light chains. Homologous partial sequences, however, do not correlate with similar antigenic specificities and affinities for digoxin. Thus the fine specificity for antigen is not dependent on VH- and VL-encoded sequences alone. These data illustrate the broad diversity of the elicited response to a single hapten, even in inbred mice.
In vitro mutagenesis and immunoglobulin gene transfection were used to investigate the binding site of a monoclonal antibody, 2610, that binds to digoxin, a cardiac glycoside. A computer model was ...generated in order to select sites in the complementarity determining regions (CDR) that would participate in binding. Residues in the CDR segments were chosen that possess high solvent exposure and were located in a putative cleft. The cloned heavy and light chain variable regions were subjected to in vitro mutagenesis at these sites. The mutated variable regions in M13 were then subcloned into expression vectors and transfected. The affinities and specificity binding properties of the resultant expressed antibodies were measured. Many of the mutants of the putative contact residues showed significant but not major alterations of binding properties. Since most of the residues in the binding site are non-polar and aromatic and since many of the mutations resulted in only modest binding changes, we theorize that much of the high affinity binding (> 10(9)/M) is the cumulation of many weak interactions, arising from dispersion forces and hydrophobic effects in the pocket. Preliminary mutagenesis of two L chain positions proposed to bind to the lactone end of digoxin have larger binding effects. Specificity studies show that the mutants more frequently possess altered binding to the lactone ring of digoxin that altered binding to other digoxin moieties. The data are most suggestive of a model in which lactone is at the bottom of a binding pocket, followed by the steroid nucleus and then by the sugar moiety extruding out of the pocket. The binding information may be useful in understanding the immune response to large, hydrophobic haptens.
We have constructed a hybrid immunoglobulin (VDJH)-T cell receptor (C alpha) gene using the VDJH exon from a digoxin-specific antibody. This gene was used to make a line of transgenic mice. The ...hybrid VDJH-C alpha protein is expressed on a subset of T cells in these mice, and we have shown that it forms part of a functional TCR complex by the criteria of coprecipitation and comodulation of CD3 and TCR beta chain components and T cell activation with anti-idiotypic antibodies or digoxin. Furthermore, in cells expressing the hybrid protein, there is allelic exclusion of endogenous TCR alpha genes. We discuss the implications for the comparative structure of T cell receptors and immunoglobulins.
The Technical Assistance Program of the CCNA Noelle, Ronald; Quinn, Winifred V; Reinhard, Susan C ...
Nursing (Jenkintown, Pa.),
02/2010, Letnik:
40, Številka:
2
Journal Article
Recenzirano
The mission of the Center to Champion Nursing in America (CCNA) is to ensure that there are sufficient skilled nurses in the American workforce to meet the demands of patients, physicians and medical ...facilities. The role of the CCNA's Technical Assistance Program in supporting nursing education is discussed.
Rare spontaneous variants of the antidigoxin antibody-producing hybridoma 40-150 (Ko = 5.4 × 109 M-1) were selected for altered antigen binding by two-color fluorescence-activated cell sorting. The ...parent antibody binds digoxin 890-fold greater than digitoxin. The variant 40-150 A2.4 has reduced affinity for digoxin (Ko = 9.2 × 106 M-1) and binds digoxin 33-fold greater than digitoxin. A second-order variant, derived from 40-150 A2.4 (designated 40-150 A2.4 P.10), demonstrated partial regain of digoxin binding (Ko = 4.4 × 108 M-1). The altered binding of the variant 40-150 A2.4 was accounted for by a point mutation resulting in substitution of arginine for serine at position 94 in the heavy chain variable region. Antibody 40-150 A2.4 P.10 also contains this arginine but owes its enhanced antigen binding to deletion of two amino acids from the heavy chain amino terminus. This unusual sequence alteration in an immunoglobulin framework region confers increased affinity for antigen.
Two monoclonal antibodies (IG8 and IG10) specific for Mullerian inhibiting substance (MIS) were obtained from the fusion between myeloma cell line SP2/0 and spleen cells from an A/J mouse immunized ...with partially purified MIS. The resulting hybridomas were screened by a solid-phase RIA and two lines were selected and cloned. Both MAbs IG8 and IG10 subsequently demonstrated specificity for MIS by their ability to inhibit biologically active MIS by precipitation with a second antibody, directly block MIS activity in the organ culture assay, and adsorb and elute active MIS when coupled to a solid support. SDS-polyacrylamide gel electrophoresis of affinity purified MIS demonstrated a major band at 140 kD in unreduced gels and two bands with approximate molecular weights of 70 and 74 KD following reduction. Protein bands were localized either directly by silver staining or on immunoblots developed with radiolabeled anti-MIS MA.