THE EPITHELIAL TUMOR METABOLISM FEATURES DURING ITS MESENCHYMAL TRANSITION

Abstract

The epithelial tumors of various localizations are capable of producing reactive oxygen species that stimulate their epithelial-mesenchymal transformation. For tumors of non-small cell lung cancer (NSCLC), gastric and intestinal adenocarcinomas (GIAC) their metabolic heterogeneity was established. By the results of analysis in morphologically homogeneous tumors of the same localization we detected clusters of tumors characterized by increased activity of xanthine oxidase, superoxide dismutase, decreased activity of glutathione peroxidase (negative relation with pathology (ρ = -0,465, p < 0,05)). Thus, glutathione peroxidase activity was minimal in the second GIAC cluster, 1.4-fold lower, and 1.8-fold lower in their first cluster than in NSCLC tumors of the corresponding clusters. In the second NSCLC cluster, it was 1.5-fold lower than in their first cluster. Against this background, superoxide dismutase activity in tumors of different localizations included in the second clusters, on the contrary, increased 2-fold in NSCLC and 1.7-fold in GIAC, respectively. It leads to increased production of hydrogen peroxide in the tumor. Increase of adenosine deaminase activity detected (positive strong correlation (Spearman rank correlation coefficient ρ = 0,805, p < 0.01)) may be accompanied by a decrease of adenosine levels and its regulatory effects preventing tumor aggressive properties. Correlation of enzymatic activity with pathology was established. In different localization tumors the possibility of metabolic stimulation of tumor epithelial-mesenchymal transformation was revealed.