Pharmacological biotargets and the molecular mechanisms of oxyresveratrol treating colorectal cancer: Network and experimental analyses

This article was designed by using a network pharmacological approach to reveal the therapeutic targets and molecular mechanisms of oxyresveratrol (Oxyres) treating colorectal cancer (CRC). Furthermore, several bioinformatic findings would be validated. Pathogenetic targets of CRC and pharmacological targets of Oxyres were identified by web-available databases. All identifiable biotargets were collected for functional enrichment analyses to reveal the biological processes and signaling pathways of Oxyres treating CRC. In addition, human CRC, non-CRC samples, and cell line study were used to validate the predictive biotargets of Oxyres treating CRC. In network pharmacological analyses, top therapeutic targets of mitogen-activated protein kinase 1 (MAPK1), insulin growth factor 1 (IGF1), hematopoietic prostaglandin D synthase (HPGDS), GTPase HRas (HRAS), and cytochrome P450 2C9 (CYP2C9) in Oxyres treating CRC were identified, respectively. As shown in functional analysis, biological processes of Oxyres treating CRC were mainly involved in modulating cell communication, signal transduction, apoptosis, cell motility, cell proliferation, and lipid metabolism. Furthermore, top 10 signaling pathways of Oxyres treating CRC were identified, respectively. In human study, CRC samples resulted in increased neoplastic expressions of Ki-67, MAPK1, IGF1, characterized with clinical imaging inspection, pathological diagnosis, and altered blood lipids in these CRC cases. In cell culture study, Oxyres-dosed CRC cells exhibited reduced cell proliferation, promoted cellular apoptosis. Furthermore, significantly decreased proteins of intracellular Ki-67, MAPK1, and IGF1 were observed in Oxyres-dosed cells when compared to those in controls. Collectively, anti-CRC pharmacological activity of Oxyres may be mainly associated with induction of apoptosis and suppression of cell proliferation as revealed in bioinformatic findings. In addition, all core biotargets and molecular mechanisms of Oxyres treating CRC are unveiled respectively. Interestingly, the identifiable MAPK1, IGF1 biotargets may be potential molecules for treating and screening CRC.