Summary
This comparative immunocytochemical investigation provides evidence that the electrogenic potassium pump of insect sensilla is a vacuolar-type proton ATPase energizing potassium-proton antiport, as was shown recently for the electrogenic potassium pump in the larval midgut of the sphinx moth Manduca sexta. Antennal sensilla of the saturniid moth Antheraea pernyi were probed with antibodies to the midgut vacuolar-type ATPase. The monoclonal antibodies recognized their epitopes in the native and SDS-denatured state, and bound specifically to the subunit with the relative molecular mass (Mr) of 67000 (antibody 86-3) or to the subunits of Mr 28000 and 16000 (antibody 47-5). Both antibodies labelled the apical region of the auxiliary cells, as was demonstrated by immunofluorescence microscopy. Immunogold-electron microscopy localized the binding sites of the 47-5 antibody in the highly folded apical plasma membranes of the auxiliary cells. Labelling was selective and was detected in all types of examined sensilla (S. trichodea, S. styloconica, S. coeloconica). These findings are in agreement with the current view that an electrogenic potassium pump is situated in the apical plasma membrane of the auxiliary cells and that the pump is involved in driving the receptor current. They support the hypothesis that a proton-motive force generated by a vacuolar-type ATPase provides an alternative to the classical Na+/K+-ATPase to energize animal plasma membranes.
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Klein, U., Zimmermann, B. The vacuolar-type ATPase from insect plasma membrane: immunocytochemical localization in insect sensilla. Cell Tissue Res 266, 265–273 (1991). https://doi.org/10.1007/BF00318182
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DOI: https://doi.org/10.1007/BF00318182