We examined prostatic adenocarcinomas from 19 formalin fixed radical prostatectomy specimens for EGFR by in situ hybridization employing a 24 base synthetic biotin-labeled oligonucleotide probe complementary to the 5' end of EGFR mRNA. All slides were examined by light microscopy using a 25x objective. Each field was given three values: 1) Gleason grade (1-5), 2) Nuclear grade [small (< 5.0 mu), intermediate (5-10 mu), large (> 10 mu)], and 3) EGFR staining intensity score (0, absent; 1, weak; 2+, moderate to strong). A total 851 25x fields of prostatic adenocarcinoma were studied. All cancers demonstrated at least some degree of cytoplasmic EGFR message. The EGFR intensity score correlated best with tumor nuclear size. No correlation with Gleason grade was observed. Cytoplasmic staining was also identified in the basal cell layer of benign glands, high grade prostatic intraepithelial neoplasia, stromal nodules, transitional epithelium, periurethral glands, and ganglion cells. Competitive hybridization experiments using an unlabeled EGFR probe showed markedly diminished hybridization signal, while in situ hybridization with a biotin-labeled EGFR sense probe was negative. Immunohistochemistry on 13 of the tumors with 2 monoclonal antibodies against EGFR showed staining in only 1/13 and 10/13 tumors. EGFR expression appears to be most prominent in tumors of high nuclear grade. Further studies will be necessary to explore this growth factor as a prognostic variable in this tumor.