In perfusion-fixed tissue, immunostaining for parvalbumin is typi

In perfusion-fixed tissue, immunostaining for parvalbumin is typically hampered by poor tissue penetration of the primary antibody. Tissue penetration was enhanced in immersion-fixed selleck screening library tissue (90 min) and, overall, the sensitivity of detection was increased compared with perfusion-fixed tissue (Fig. 2A and A′). With regard to GABAARs (as well as other postsynaptic proteins), perfusion-fixation hampers their detection in postsynaptic densities, depending on the strength of fixation.

The latter is determined by both concentration of aldehydes and duration of the fixation (perfusion-time, post-fixation or immersion of fresh tissue in fixative). The effect of time is illustrated in Fig. 2B and C, showing the staining pattern of the GABAAR α2 subunit in perfusion-fixed tissue with brief (2 h) and long (6 h) post-fixation, compared with immersion-fixed tissue (45 and 150 min). The marked differences in apparent distribution of the α2 subunit immunofluorescence among these four representative images underline the dependence of immunohistochemistry on tissue preparation procedures,

and the enhanced sensitivity achieved in tissue briefly fixed by immersion in aldehyde solution. Likewise, GFP immunofluorescence staining (superimposed to eGFP fluorescence) in immersion-fixed sections from GAD67-GFP mice yielded excellent structural preservation and a high signal-to-noise ratio, indicating that no leakage see more of GFP molecules occurred during tissue preparation (Fig. 2D

and E). Finally, imaging eGFP-positive dendrites and axons in adult-born dentate gyrus granule cells likewise revealed very small structures, such as spine heads (Fig. 2F) and filopodia (Fig. 2G), even in tissue that was immersion-fixed for <2 h. Therefore, detection of eGFP-positive structures is feasible in weakly fixed tissue, compatible with the short post-fixation time needed to detect synaptic proteins (see below). To determine whether this immersion-fixation is also applicable for epithelial-like tissues, which lose considerable Transmembrane Transproters inhibitor antigenicity upon perfusion-fixation, we tested the ACSF perfusion protocol followed by 3 h of immersion-fixation on sections of the olfactory epithelium, decalcification in 5% EDTA for 7 days, cut with a cryostat and mounted on glass-slides prior to immunofluorescence staining. The markers selected for comparison with perfusion-fixation are olfactory marker protein (OMP) (Baker et al., 1989) and three markers selective for microvillar cells, a specialised cell population expressing proteins of the PLCβ2/IP3R3 signaling cascade (Elsaesser et al., 2005; Pfister et al., 2012). As illustrated in Fig. 3A–D, a higher signal-to-noise ratio, due to increased sensitivity and epitope preservation, was obtained for these markers in the immersion-fixed tissue.

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