Two approaches to double post-embedding immunogold labeling of freeze-substituted tissue embedded in low temperature Lowicryl HM20 resin

Abstract

Double labeling is used for localizing two antigens simultaneously in the same tissue. We have used two approaches to post-embedding immunogold labeling to investigate whether nerve terminals in the guinea-pig anteroventral cochlear nucleus (AVCN) that contain γ-aminobutyric acid (GABA) or glycine are capable of retrieving the other amino acid as part of an investigation of colocalization of these putative neurotransmitters. For this, vibroslices of perfusion-fixed brain stem were freeze-substituted and embedded in the low temperature resin, Lowicryl HM20. Simultaneous labeling of ultrathin sections was then performed with a mixture of a rabbit primary antibody to GABA and a guinea-pig primary antibody to the glycine transporter, GLYT2, followed by labeling with a mixture of secondary antibodies (goat anti-rabbit IgG-30 nm gold, goat anti-guinea pig IgG-15 nm gold). This approach indicated that GLYT2 occurs in the plasma membrane of some terminals that contain GABA. The other approach involved sequential labeling of ultrathin sections with a rabbit primary antibody to the GABA transporter, GAT1, followed by an anti-rabbit secondary antibody conjugated to 15-nm gold particles. Sections were then treated with paraformaldehyde vapor to denature any free anti-IgG binding sites on the first antibody, and labeled with a primary antibody to glycine also raised in rabbit followed by an anti-rabbit secondary antibody conjugated to 30-nm gold particles. This approach indicated that GAT1 occurs in the plasma membrane of some terminals that contain glycine. Thus, these techniques can be used to localize heat-labile multiple antigens in the same tissue.