Summary Microsatellite instability is a form of genetic damage that may be due to defective mismatch repair genes and may be a marker of processes leading to malignancy. We have analysed a series of epithelial hyperplasia of usual type, carcinomas in situ and invasive and metastatic carcinomas from the mammary gland on the assumption that they represent stages in the evolution of mammary carcinoma. Eight markers on chromosomes 3p, 4q, 9p, 11p, 14q, 17p, 17q and Xq were examined for microsatellite instability and loss of heterozygosity. High rates of loss on chromosomes 17p, 17q and Xq indicate that these chromosomal arms contain genes important in mammary carcinogenesis. The rate of microsatellite instability observed in this study was uniformly low, irrespective of the lesion. This implies that microsatellite instability is not a marker of malignancy in most instances of mammary neoplasia.
We describe a method using an inexpensive craft glue to routinely isolate specific areas of tissue as small as 1 mm2 from paraffin sections. The tissue may be digested to release nucleic acid suitable for PCR or reverse transcription PCR. The use of this procedure obviates the requirement for manual microdissection or ultraviolet light irradiation. Tissue remaining on the slide can be stained and analyzed, allowing the precision of the extraction to be determined. The slide can be stored as a permanent record of the material taken for analysis.
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