Exploring the Anticancer Potential of Triazine Derivatives: An Outlook of Designing Strategies, Docking Studies, and Structure‐Activity Relationships (SAR)

Abstract Cancer is a disease characterized by uncontrolled cell growth resulting from genetic and epigenetic changes accumulating within a cancer cell population. Despite the milestone discovery of chemotherapeutic drugs against cancer, cancer remains tough to cure. Therefore, cancer has the second‐highest global death rate. There are certain factors such as genetic mutation, cancer cell diversity, metastasis, and resistance, which limit chemotherapy. To combat cancer, it's crucial to find novel therapeutic tactics and produce novel drugs that target cancer cells without affecting healthy cells. Heterocyclic compounds influence certain molecular targets to find novel lead structures can be a noteworthy strategy for the development of potential anticancer agents. Triazine, a low‐cost and widely available heterocyclic scaffold, has piqued researchers’ interest in developing innovative designing strategies. This review presents the advancement of three different isomers of triazines as anticancer agents. The main focus of this review is to provide the advancement of designing strategies, structure‐activity relationships, and docking studies of triazine derivatives as anticancer agents the available triazine‐containing drugs, and the status of clinical trials of triazine‐containing drugs were also highlighted. Lastly, we have also concluded the most potent derivatives and their hybridization with another ring to justify the particular anticancer activity.