This method was successful in our lab using prostate tissue and for our specific objectives. Investigators must be aware that they will need to tailor the following protocol for their own research objectives and tissue under study. The protocol below is one example of differential gene expression analysis of cells obtained from microdissected tissue. 1. Materials Stratagene RAP-PCR kit 2. Methods (Under sterile, RNase free conditions) Note: The protocol was utilized to screen for tumor-specific alterations in transcript levels using a variety of screening approaches and primer combinations, including the RAP-PCR arbitrary primers from Stratagene and degenerate primers directed against known protein motif DNA sequences. Exact conditions must be determined for each differential display study depending on the number of cells utilized, the primer sets, and the number of transcripts the investigator wishes to screen. A: Microdissection and RNA Isolation Dissect approximately 5000-10,000 cells from frozen sections cut to a thickness of 12 µm. Complete the microdissection within 30 minutes of preparation of the tissue sections. Isolate total RNA, as from protocol in RNA-based Studies of Microdissected Tissues. TIP: Only use cells from frozen tissue that is extremely well-preserved. TIP: If anchored, oligo-dT-based differential display is to be performed (e.g., with the GenHunter kit), it is recommended to start with RNA recovered from a substantially larger number of microdissected cells. B: Reverse Transcription Add 24 µl H2O and 1 µl RNase inhibitor, 20 U/µl, to RNA pellet. Resuspend the RNA pellet with gentle tapping. Quick spin. Aliquot 12 µl into 2 tubes for the (+) and (-) RT reactions. Prepare additional control tubes using the following in place of the sample RNA: A positive control prepared with known, high-quality RNA A negative control prepared from either a LCM cap containing no tissue or RNase-free water Prepare sufficient volume of the following reaction mixture for each tube:
Add reaction mixture to each tube in #3 and #4. Incubate 10 minutes at 25°C. Add 1 µl MMLV reverse transcriptase to the (+) RT tube and the positive and negative controls. Add 1 µl water to the (-) RT tube. Incubate 10 minutes at 25°C. Heat 40 minutes at 37°C. Heat 5 minutes at 95°C. Store the cDNA at -20°C until use. |
C: PCR TIP: Investigators must be especially careful when using this methodology to analyze archival tissue specimens. Formalin fixation in particular results in DNA that is difficult to amplify and often produces inconsistent PCR results, including artifactual allelic loss and poor amplification of large products. If this technique is to be utilized for analysis of archival samples, we highly recommend that replicate experiments (multiple independent dissections, triplicate PCR reactions, etc.) be used to verify results. Prepare sufficient volume of reaction mixture for all tubes: Add 1.5 µl cDNA (or DNA) from #13 to each tube. Add reaction mixture to each tube. PCR cycling conditions in a PE 9600 thermocycler (see TIP 2) TIP 1: In the published work cited above, degenerate primers directed against zinc finger motifs were used in conjunction with Stratagene's RAP-PCR arbitrary primers. To generalize this protocol, the PCR primers are written as forward primer and reverse primer. Please refer to the Stratagene protocol for more details. TIP 2: The times and temperatures given above are samples only and what was used in the above referenced work. Please refer to the RAP-PCR protocol for details regarding the PCR conditions. We tried annealing temperatures varying from 50-58°C. D: P.A.G.E. While the PCR is cycling, pour a 6% polyacrylamide sequencing gel: After cycling is completed, add 10 µl 2X loading dye to samples. E: Sequencing of Differentially Expressed Bands Excise the appropriate bands from the gel using a razor blade. Use the same cycling conditions as in the first PCR, #2 above. Run out the PCR product on a 1.5% low melting point agarose gel. Cut out the PCR product (approx. 100 µl) and use and aliquot directly in the sequencing reaction. Sequence according to manufacturer's instructions. In the paper referenced below, we used the Perkin Elmer Amplicycle Sequencing kit. F: Reference The protocol was taken from: Chuaqui et al, Identification of a novel transcript up-regulated in a clinically aggressive prostate carcinoma. J Urol 50(2):302-7, 1997. |
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