Aromatase (CYP 19) gene expression was studied in 70 breast tumors. When RNA-dot-blot or rt-polymerase chain reaction were used expression frequency was 60.4 and 91.7%, respectively. An analysis of individual variants of non-coding exon of aromatase gene confirmed that, unlike normal mammary tissue, tumor switched from activation of exon I.4 ("sensitive" to glucocorticoids) to exons II ("sensitive" to cAMP) or I.3. This difference was relatively somewhat more pronounced in the Russian material. Direct correlation between aromatase enzymatic activity and expression of exons II and I.3 in tumor tissue appeared more significant than that of aromatase gene coding site. An evaluation of the expression of adenylate cyclase G-protein alpha-subunit genes established an inverse correlation between expression of Gi2a and exon I.3. Breast tumors with elevated basal aromatase activity were more sensitive to aromatase inhibitors (letrozole, 4-OHA) in vitro although no relationship between use of CYP19 (aromatase) 5' exon variant and in vitro inhibition of aromatase was detected. A correlation was observed between expression of aromatase gene and variants of its 5' exon, on the one hand, and age, tumor grade, steroid receptor presence and tumor lymphocytic infiltration, on the other. To summarize, local estrogen production in breast tumor tissue is regulated by a wide range of factors expression both aromatase gene influencing and its enzymatic activity, thus providing leverage on both.