IntroductionThis study explores the cytotoxic activity‐guided isolation of the underground parts of Laserpitium hispidum M. Bieb and Laserpitium petrophilum Boiss. & Heldr., which have not been previously investigated.ObjectivesThe aim is to isolate and evaluate bioactive compounds from Laserpitium L. species with anticancer potential.Material and MethodsThis study involves bioactivity‐guided isolation and structural studies of the pure compounds utilizing NMR, UV–Vis, IR spectroscopies, and HRMS. The cytotoxic activity of the isolated compounds was evaluated in vitro and in vivo, whereas molecular modeling, docking, and ADME predictions were conducted using Schrödinger software.ResultsThe study isolated phenylpropanoids (laserine (1), latifolone (2), myristicin (3)), sterol (stigmasterol (4)), polyenes (falcarindiol (5)), sesquiterpene lactone (11‐hydroxybadkhyzin (6)), and nordaucane sesquiterpene (norlasidiol angelate (7)) from L. hispidum, whereas L. petrophilum yielded 10β‐acetoxy‐8α‐angeloyloxy‐6αH,7αH‐guaian‐3‐en‐12,6‐olide (8), 10β‐acetoxy‐8α‐senecioyloxy‐6αH,7αH‐guaian‐3‐en‐6,12‐olide (9) and acetylisomontanolide (10). Molecular docking simulations revealed stable interactions between compounds 7 and 9 with estrogen receptor α (ERα) and vascular endothelial growth factor receptor 2 (VEGFR2), with compound 7 showing superior stability and binding affinity. In silico ADME predictions indicated favorable pharmacokinetic properties, including high oral absorption.ConclusionCompounds 7 and 9, representing new nordaucane and sesquiterpene lactones, have not been previously reported. In vitro cytotoxicity revealed that compound 7 exhibits potent anti‐cancer activity against MCF‐7 cells, whereas compound 9 showed reduced cytotoxicity. In vivo testing in Caenorhabditis elegans supported these findings, suggesting safety and efficacy in organisms. In silico results emphasize the potential of these compounds, with compound 7 promising due to its stability and strong binding affinity.