https://www.selleckchem.com/products/a1874.html Heading the list of the critical health-related issues worldwide, cancer continues to be a one of the most serious life-threatening diseases. The rate of cancer-related mortality is at alarming level globally because of poor ability of prevention, diagnosis and efficient treatment of cancers. Pertaining to its wide prevalence in many naturally occurring compounds, coumarin as a privileged scaffold is endowed with outstanding anticancer profile. Different classes of coumarin-based anticancer agents that act through diverse mechanisms of action have been comprehensively investigated by many researchers, such as alkylating agents, topoisomerase inhibitors, hormone antagonists, angiogenesis inhibitors, antimitotic agents, apoptosis inducers, human carbonic anhydrase inhibitors, telomerase inhibitors and other mechanisms. Accordingly, medicinal chemists and drug design scientists embarked on exploring diverse coumarin-based derivatives comprehending their potential to develop new efficient anticancer agents. The present review provides an overview of different anticancer classes based on the coumarin scaffold that have been reported since 2015 with particular emphasis on their cellular and enzymatic mechanism of actions.In this work, 2'-alkoxymethyl substituted klavuzon derivatives were prepared starting from 2-methyl-1-naphthoic acid in eight steps. Anticancer potencies of the synthesized compounds were evaluated by performing MTT cell viability test over cancerous and healthy pancreatic cell lines, along with CRM1 inhibitory properties in HeLa cells by immunostaining and Topo I inhibition properties by supercoiled DNA relaxation assay. Their cytotoxic activities were also presented in hepatocellular carcinoma cells (HuH-7) derived 3D spheroids. Among the tested klavuzon derivatives, isobutoxymethyl substituted klavuzon showed the highest selectivity of cytotoxic activity against pancreatic cancer cell line. They showed po