Leukemia, one of the major causes of cancer death, ranks 11th worldwide among cancer-related deaths. The current treatment of leukemia faces challenges recently due to a high burden of side effects. It is well established that curcumin has anticancer and tumor-suppressing activities in several cancers in addition to leukemia. Accordingly, 15 derivatives were designed and prepared to improve the shortcomings of curcumin, such as poor aqueous solubility, chemical instability, and low bioavailability. All 15 were evaluated for cytotoxicity against the leukemic cell line MOLT-4, which led to the prioritization and further evaluation of compound curcuminoid (2,5)-2,5-((3-(4-nitrophenyl)-1-phenyl-1-pyrazol-4-yl)methylene)cyclopentan-1-one . 5i. Compared to curcumin, 5i was significantly more effective in inducing mitochondrial dysfunction in MOLT-4 cells; hence increased ROS production and cytotoxicity. Treatment groups showed change in mitochondrial membrane potential by flow cytometry analysis. Moreover, tumor volume reduction observed with 5i treatment in Dalton's Lymphoma model was accompanied with low toxicity. Intrinsic pathways of apoptosis was initiated by compound 5i that lowered Bcl-2 expression while augmenting cytochrome c, Bak and Bax levels both in vivo and in vitro. These results showcase the potent antiproliferative as well as cytotoxic effects of 5i at nanomolar doses against leukemia being at least 60 times more effective than curcumin.