Insights into the Structural Patterns in Human Glioblastoma Cell Line SF268 Activity and ADMET Prediction of Curcumin Derivatives.

: Curcumin is a promising therapy for glioblastoma but is limited by poor water solubility, rapid metabolism, and low blood-brain barrier penetration. This study aimed to evaluate curcumin and six curcumin derivatives with improved activity against a glioblastoma cell line and favorable absorption, distribution, metabolism, excretion, and toxicity (ADMET) properties. : Twenty-one curcumin derivatives were assessed and subjected to in vitro MTT cytotoxicity assays in SF268 glioblastoma and Vero cells. On the basis of the cytotoxicity results, six derivatives with the most favorable characteristics were selected for additional mechanistic studies, which included microtubule depolymerization, mitochondrial membrane potential (ΔΨm), and BAX activation assays. ADMET properties were determined in silico. Compounds -, , and demonstrated better activity (IC: 0.59-3.97 µg/mL and SI: 3-20) than curcumin (IC: 6.3 µg/mL; SI: 2.5). Lead derivatives destabilized microtubules, induced ΔΨm collapse, and activated BAX. In silico ADMET prediction analysis revealed that compounds and were the most promising for oral administration from a biopharmaceutical and pharmacokinetic point of view. : Strategic modifications were made to one or both hydroxyl groups of the aromatic rings of curcumin to increase its physicochemical stability and activity against glioblastoma cell line SF268. Compound , bearing fully protected aromatic domains, was identified as a prime candidate for in vivo validation and formulation development.