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Use of Anti-fluorophore Antibody to Achieve High-sensitivity Immunolocalizations of Transporters and Ion Channels

Richard A. Coleman, Jie Liu and James B. Wade

Physiology Department, School of Medicine, University of Maryland–Baltimore, Baltimore, Maryland

Correspondence to: Richard A. Coleman, Physiology Department, University of Maryland School of Medicine, 655 W. Baltimore Street, Baltimore, MD 21201. E-mail: rcoleman{at}umaryland.edu

We have discovered that the immunoreactivity of the fluorophore Alexa Fluor 488 survives glutaraldehyde and osmium tetroxide fixation and epoxy resin embedding and etching. We have developed new localization methods that for the first time take advantage of this property. The antigen is localized in cryosections using suitable primary antibody and an Alexa Fluor 488-conjugated secondary antibody. Cryosection fluorescence can be photographed for later correlation with electron microscopy (EM) findings. The sections are then further fixed with glutaraldehyde and OsO₄, if desired and flat-embedded in epoxy resin. Semi-thin sections are etched completely with sodium ethoxide, whereas thin sections are partially etched. Alexa Fluor 488 is then localized with rabbit anti-Alexa Fluor 488 and goat anti-rabbit conjugated to Alexa Fluor 488 [light microscopy (LM)] or to colloidal gold (EM). A second antigen may also be localized using Alexa Fluor 568. When used without postfixation, these methods produce high-resolution semi-thin, or even thin, sections that retain a high level of fluorescence for LM observations. These methods allow highly sensitive immunolocalizations in tissue while preserving cell fine structure through traditional fixation and epoxy embedding. In demonstration of the methods, we describe the localization of the thiazide-sensitive sodium/chloride cotransporter and the epithelial sodium channel in rat kidney. (J Histochem Cytochem 54:817–827, 2006)

Key Words: immunogold • localization • sodium/chloride cotransporter • epithelial sodium channel • rat • kidney • light microscopy • electron microscopy • Alexa Fluor 488

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