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LR White resin has five advantages, which can be exploited for the localization of antigens in sections of fixed and embedded tissue under the electron microscope.
To preserve antigenicity post-fixation in osmium tetroxide is best avoided but then a variety of possibilities is available depending on the requirements of the investigator. If tissue blocks are kept small (1-3 mm3) four to six hours fixation in freshly depolymerised and purified 4% paraformaldehyde in 0.1M phosphate (Sorensen’s) buffer pH 7.3, is recommended for the preservation of maximum tissue antigenicity. Tissue is then washed overnight in buffer solution. Picric acid, included with formaldehyde with its greater power to cross-link proteins, undoubtedly stabilizes tissue structure to a greater degree than does formaldehyde, but in turn, tissue thus fixed demonstrates a reduced antigenicity. It is strongly recommended that vacuum-distilled, purified forms of monomeric or trimeric glutaraldehyde are used, to increase method reproducibility and avoid deleterious fixative impurities. Three to four house in 1-2% Glutaraldehyde in 0.1M phosphate (Sorensen’s) buffer pH 7.3, is perfectly adequate, remembering that the lower the concentration of glutaraldehyde the higher the antigenic yield. Tissue is then washed overnight in buffer.
The effects of the avoidance of osmium tetroxide can be partially compensated, without detriment to tissue antigenicity, by the inclusion of picric acid in the glutaraldehyde solution. The suggested solution is as follows: 50% purified glutaraldehyde – 2 ml, picric acid (sat. aq) – 15 ml and 0.1m phosphate (Sorensen’s) buffer pH 7.3 – 83ml (BGKPA) giving a 1% glutaraldehyde, 0.2% picric aid solution. The percentage of glutaraldehyde and picric acid can be increased to give more stable ultrastructure but this may be at the expense of antigenicity. Two to four hours for the fixation of 1-3 mm3 blocks is recommended. More membrane structure is seen with this fixative than when glutaraldehyde is used alone, especially if it is perfused into animal tissue, when the molarity of the buffer should be decreased (0.05m-0.08m).
Further steps, such as post-osmication or “block-staining” should not be carried out because they may reduce immunocytochemical sensitivity – either through reduced antigenicity or enhanced background.
Tissue fixed in aldehyde alone, after buffer rinses, is dehydrated in a graded ethanol series. Tissue fixed in aldehyde/picric acid is placed directly into 70% ethanol where some of the picric acid can be washed out. Reducing the time in, and concentration of, ethanol used in dehydration will often increase antigenic yields. LR White will accept tissue from 70% ethanol so that after two washes of 30-6 minutes each blocks may be transferred into LR White. When osmium is avoided tissue shrinkage can be a problem and tissue taken from fixative to 70% ethanol and then straight into LR White may show shrinkage are fact. This can be lessened by introducing an intermediate step of diluted LR White which is 2:1 LR White to 70% ethanol. Be careful not to carry over large amounts of 70% ethanol when transferring tissue.
Even though the tissue may be taken from 70% ethanol into LR White no special procedures are necessary. One change for an hour, followed by an overnight change (preferably on a rotamix) and then a final change the following morning before embedding, using gelatin capsules, is usually sufficient unless the blocks of tissue are particularly large (i.e. in excess of 3 mm3). As in the application sheet on LR White in routing electron microscopy, blocks may be stored in unpolymerized resin at 40°C for weeks if necessary.
Some special care must be taken to make sure that tissues undergoing embedding are not exposed to temperatures in excess of 55°C if antigenicity is not to be impaired. The “cold-cure” procedure (see “Using LR White for EM”), therefore, even though the tissue is not osmicated, should not be used (the exothermic reaction my exceed 60°C). Instead an accurate oven or incubator set at 50°C is preferred and a 24 hour polymerization time is given. Although anaerobic polymerization is advised for Beem capsules, in fact LR White, when contained in gelatin capsules, fully filled and tightly capped, polymerizes well in a 50°C oven without further precautions.
Trimming, cutting and use in the electron microscope are as for the applications sheet for electron microscopy.
The choice of immunolocalizations technique is entirely up to the user and PAP, hapten-anti hapten, Avidin-biotin or gold-colloidal methods may all be adaptable. Some useful publications to help with this choice are given in the reference at the end of this application sheet.
Of course, from time to time, ultra-thin section so it tissues fixed, processed and embedding as described about should still be stained with uranyl acetate (15 mins) followed by lead citrate (3 mins) on the grids as for routine electron microscopy. The appearance of such tissues is different from that of post-osmicated tissue and it is important that the observer understands the material with which he’s is working.
Immunostained sections can be counterstained with lead citrate but if peroxidase techniques are in use this may confuse the picture.