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The objective of our study was to evaluate the suitability of aldehyde-fixed, epoxy resin-embedded tissue for efficient and reproducible detection of casein mRNA in mouse mammary tissue by in situ hybridization. We used mouse alpha-casein-specific, 35S-labeled riboprobes generated from a Gemini-3 vector. Both complementary (anti-sense) and homologous (sense) RNA probes were utilized in our study (specific activity ranged from 5-7 x 10(8) cpm/micrograms). We tested the stability of newly synthesized [3H]-uridine-labeled RNA in tissue sections subjected to epoxy plastic solvents and found that no detectable loss of label occurred during preparation of semi-thin (1-2 micron) plastic sections for situ hybridization. In addition, it was possible to detect alpha-casein mRNA in deplasticized sections of mammary gland tissue taken from normal, pregnant, or lactating mice, pre-neoplastic mammary alveolar hyperplasias, explant cultures, and mammary tumors. A positive hybridization signal was consistently obtained in sections of mammary tissues where the estimated average copy number for total casein mRNA was greater than or equal to 250/cell. In mammary tumors, where the estimated casein mRNA content was much lower (less than 5/cell), our positive hybridization signal occurred in regions of the tumor that, in consecutive sections, stained positive for casein by immunoperoxidase. After formaldehyde-glutaraldehyde fixation, loss of hybridizable RNA from epoxy-embedded tissues and sections appears to be minimal. Image resolution was greatly enhanced over frozen or paraffin sections of mammary tissue. Non-specific binding of the radioactive probes was very low. Protease treatment of the sections was not necessary for detection of hybridizable signal.

Localization of alpha-casein gene transcription in sections of epoxy resin-embedded mouse mammary tissues by in situ hybridization.