Recombinant antibody fragments are emerging as a versatile tool in both basic research and medical therapy. We describe the procedures for direct labeling of engineered antibody fragments (Fv) with fluorescein or nanogold and their use in fluorescence and immunoelectron microscopy, respectively. The Fv fragments were produced in Escherichia coli, purified by one-step Strep tag affinity chromatography, chemically labeled with the marker, and employed in microscopy to localize epitopes on the membrane protein bacteriorhodopsin in purple membranes of Halobacterium halobium and the cytochrome c oxidase of Paracoccus denitrificans. In both cases, methods involving directly labeled antibody fragments show results identical to those in which antibodies or Fv fragments are detected by a secondarily labeled conjugate. The multifunctional design of the recombinant Fv fragments, however, offers more all-around applications in immunocytochemistry. The directly labeled Fv fragments, half the size of an Fab fragment, are at the molecular level the smallest antibody fragments yet described for visualization of biomolecules in microscopy.
We developed a novel antibody fragment (Fv) technique for localization and determination of the surface topology of membrane protein complexes by immunogold electron microscopy. Several hybridoma cell lines producing murine monoclonal antibodies (MAbs) raised against bacterial membrane proteins were established. The cDNAs coding for the variable domains of the MAbs were cloned and expressed in Escherichia coli. The engineered Fv fragments served as trifunctional adapter molecules. The Fv fragment binds to the epitope of the membrane protein. The Strep tag fused to the VH chain was used for one-step affinity purification of the Fv fragments. Immunological detection of the membrane protein-bound Fv fragments in electron microscopy was accomplished either via the Strep tag with colloidal gold-labeled streptavidin or via the c-myc tag, which was fused to the VL chain, in combination with the c-myc tag-specific antibody 9E10 and a colloidal gold-labeled secondary antibody. We examined four Fv fragments directed against the cytochrome c oxidase or the ubiquinol-cytochrome c oxidoreductase of Paracoccus denitrificans and bacteriorhodopsin of Halobacterium halobium to show that this method is generally applicable. In all cases the Fv fragments showed the same results as their corresponding parent antibodies in electron microscopic immunostaining and other applications.
In an attempt to identify a cellular Ca2+-pool, from which calcium is released when secretagogues are applied, tissue fragments of the rat exocrine pancreas were incubated and fixed with glutaraldehyde in the presence of calcium. By means of this procedure electron-dense deposits were found on plasma membranes. X-ray microanalysis showed that these deposits contain calcium. Stimulation of tissue fragments with the use of the secretagogues carbachol or cholecystokinin reduced the number of deposits by about 80%. When the antagonist atropine was applied after carbachol stimulation, deposits reappeared on cell membranes, which then disappeared again after a second stimulation with cholecystokinin. In the presence of procaine, carbachol was inhibited and only slightly reduced the Ca2+-deposits on the plasma membranes. These results suggest that a calcium pool, from which calcium is released to induce enzyme secretion on stimulation, is located in the cell membrane.
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