Immunocytochemistry for amino acids with post-embeddiag gold is compatible with glutaraldehyde fmtion, osmidon, and embedding in epoxy-based plastics, but h u n o g o l d detection of larger molecules in the central nervous system commonly requires special procedures, e.g. minimizing exposure to glutaraldehyde, eliminating osmium, cryosectioning, andlor embedding in acrylic plastics. These make samples more dif5cult to prepare and view and may compmmke structural preservation. We report a new technique, fixing with high levels of glutaraldehyde, replacing osmium with tannic acid followed by other heavy metals and p-phenylenediamine, and embedding in Epon. This method opti-
IntroductionPost-embedding gold labeling for electron microscopic (EM) immunocytochemistry provides important advantages over preembedding methods, including better localization and structural preservation (Stirling, 1990;Hayat, 1989). It is also suitable for quantitative study, as gold particle density can be directly measured while the problem of variable antibody penetration is avoided. Postembedding immunocytochemistry on standard material (fixed in glutaraldehyde, post-fixed in 0~0 4 , and embedded in epoxy plastics) works well for the study of amino acids (Phend et al., 1992;Van den Pol et al., 1990;Ottersen, 1989; Somogyi and Soltbz, 1986;. However, many larger molecules may completely lose immunoreactivity, or label with only low sensitivity and high background. A number of modifications have been introduced, but each has shortcomings (see Discussion). We report here a technique that preserves immunoreactivity with only minimal associated dkficulties.os04 is a highly reactive fixative, preserving membranes at least in part by bonding to unsaturated lipids (Hayat, 1989). Unfortunately, os04 may also react with tissue antigens, making it un-' Supported by NINDS awards #12440 and 16164 (AR) and #29879 suitable for optimal immunocytochemistry (Stirling, 1989;Bendayan et al., 1987;Pearse, 1980). In an effort to find ways to avoid this problem, we considered other agents reputed to preserve membranes. En bloc staining with uranyl acetate (UAc), often used after os04 to enhance specimen contrast, may also act as a fixative to help preserve structure (Silva et al., 1971;Terzakis, 1968). Unlike 0~0 4 , UAc is not highly reactive; its fixative effect appears to arise from electrostatic interactions between the uranyl cation and tissue elements. Perhaps for this reason, UAc appears to have little or no adverse effect on immunostaining (Stirling, 1992;Berryman and Rodewald, 1990;Erickson et al., 1987). Tissue preservation via non-covalent interactions can be achieved by tannic acid (TA, a mixture of polyglycol anions), which has been used in histology for many years as mordant and adjuvant fixative, both for light (reviewed by Chaplin, 1985) and electron microscopy (Sannes et al., 1978; Kalina and Pease, 1977; LaFountain et al., 1977;Simionescu and Simionescu, 1976;Wagner, 1976; van Deurs, 1971;Mizuhira and Futaesaku, 1971). After embedding in ...
