Epitope mapping of monoclonal antibodies against caldesmon and their effects on the binding of caldesmon to Ca++/calmodulin and to actin or actin-tropomyosin filaments

Abstract

The effects of monoclonal anti‐caldesmon antibodies, C2, C9, C18, C21, and C23, on the binding of caldesmon to F‐actin/F‐actin‐tropomyosin filaments and to Ca⁺⁺/calmodulin were examined in an in vitro reconstitution system. In addition, the antibody epitopes were mapped by Western blot analysis of NTCB (2‐nitro‐5‐thiocyanobenzoic acid) and CNBr (cyanogen bromide) fragments of caldesmon. Both C9 and C18 recognize an amino terminal fragment composed of amino acid residues 19 to 153. The C23 epitope lies within a fragment ranging from residues 230 to 386. Included in this region is a 13‐residue repeat sequence. Interestingly this repetitive sequence shares sequence similarity with a sequence found in nuclear lamin A, a protein which is also recognized by C23 antibody. Therefore, it is likely that the C23 epitope corresponds to this 13‐residue repeat sequence. A carboxyl‐terminal 10K fragment contains the epitopes for antibodies C2 and C21. Among these antibodies, only C21 drastically inhibits the binding of caldesmon to F‐actin/F‐actin‐tropomyosin filaments and tc Ca⁺⁺/calmodulin. When the molar ratio of monoclonal antibody C21 to caldesmon reached 1.0, a maximal inhibition (90%) on the binding of caldesmon to F‐actin filaments was observed. However, it required double amounts of C21 antibody to exhibit a maximal inhibition of 70% on the binding of caldesmon to F‐actin‐tropomyosin filaments. These results suggest that the presence of tropomyosin in F‐actin enhances caldesmon's binding. Furthermore, C21 antibody also effectively inhibits the caldesmon binding to Ca⁺⁺/calmodolin. The kinetics of C21 inhibition on caldesmon's binding to Ca⁺⁺/calmodulin is very similar to the inhibition obtained by preincubation of caldesmon with free Ca⁺⁺/calmodulin. This result suggests that there is only one Ca⁺⁺/calmodulin binding domain on caldesmon and this domain appears to be very close to the C21 epitope. Apparently, the Ca⁺⁺/calmodulin‐binding domain and the actin‐binding domain are very close to each other and may interfere with each other. In an accompanying paper, we have further demonstrated that microinjection of C21 antibody into living chicken embryo fibroblasts inhibit intracellular granule movement, suggesting an in vivo interference with the functional domains [Hegmann et al., 1991: Cell Motil. Cytoskeleton 20:109–120].