Sabolová, Gabriela, Špaková, Ivana, Artimovič, Peter, Bohuš, Peter, Rabajdová, Miroslava, and Mareková, Mária
Simple Summary: Angiogenesis is a synchronous mechanism of new blood vessel formation that is controlled by pro- and anti-angiogenic factors. Angiogenesis differs from tissue to tissue, especially in pathological conditions. The exact nature of the co-operation between angiogenic markers is still unknown. Herein, we describe the possible critical changes in VEGF-A, TGF-β1, ANG1, ANG2, and HIF-1α in ectopic endometriosis (with elevated pro-angiogenic factors in all studied fields), in ovarian endometrioid adenocarcinoma (showing typical upregulation on the TGF-β1 axis), and two different types of endometrial carcinoma (with an extreme pathological ANG2/ANG1 axis for mixed mesodermal tumors). Understanding the angiogenic mechanism within pathological tissues could help to improve angiogenic treatment strategies and lead to better prognoses. A characteristic feature of uterine pathologies is a specific change in cell metabolism, which predominantly manifests as a shift in the need for nutrients, thereby directing cells to engage in different angiogenic marker activities. Angiogenesis is one of the main signals supporting the survival and development of cells and tissues not only under physiological conditions. Therefore, it is necessary that we understand pathological hyperactivation in all uterine diseases, from endometriosis through ovarian endometrioid adenocarcinoma to malignant transformed cells of the uterine epithelium and body. This work presents the gene expression results of selected angiogenesis targets (VEGF-A, TGF-β1, ANG1/2, and HIF-1α), cell migration, and cell–cell interaction determined in vitro. Our results suggest that angiogenesis varies in the tested pathological conditions (ectopic endometriosis—12Z; ovarian endometrioid adenocarcinoma—A2780; tumors—SK-UT-1 and RL-95-2) compared to physiological angiogenesis (HME1). The differential expression of angiogenic factors may contribute (or is a contributing factor) to the observed differences to acknowledge an inherent variability in angiogenesis among cell lines. Determining the genomic phenomena responsible for processes associated with inadequate angiogenesis in the pelvic region could help us to develop individual treatment strategies and explain resistance to treatment. [ABSTRACT FROM AUTHOR]