Abstract
A series of studies was performed to assess the optimum fixation conditions for staining of carbohydrate-containing constituents of rat salivary gland secretory granules. In the parotid and submandibular salivary glands of the rat, the reactivity of secretory granules, at both the light and electron microscopic level, with routine stains and with cytochemical reagents was highly dependent upon the nature of the fixative employed. At the light microscopic level, secretory granules in rat parotid gland were periodic acid-Schiff (PAS) positive if fixed with buffered formalin fixatives. However, if the gland was fixed with lipid-solvent-containing fixatives, or with formalin at a very acid pH (as in Bouin's fixative), the PAS reactivity of the granules was lost. In the submandibular gland of rats, the acinar cells and granular tubules behaved similarly after such fixation in terms of their PAS reactivity, particularly in males; acinar cells of the female submandibular gland stained only lightly with PAS. At the fine structural level, the morphology of secretory granule constituents depended on the buffer used (cacodylate, phosphate or collidine) and on whether or not tissue was post-osmicated. Post-osmication considerably reduced the reaction of secretory granule components with stains for carbohydrates. The experimental evidence indicated that the carbohydrate-containing components of both parotid and submandibular gland secretory granules were not typical long-chain neutral or acidic mucins, but were rather glycolipids or lipophilic glycoproteins that were solubilized by lipid solvents or at acidic pH and were lost or destroyed in the presence of strong oxidants.
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