Phytochemical Analysis of the Methanolic Extract and Essential Oil from Leaves of Industrial Hemp Cultivar: Isolation of a New Cannabinoid Derivative and Biological Profile Using Computational Approaches.

L. is a plant belonging to the Cannabaceae family, cultivated for its psychoactive cannabinoid (Δ-THC) concentration or for its fiber and nutrient content in industrial use. Industrial hemp shows a low Δ-THC level and is a valuable source of phytochemicals, mainly represented by cannabinoids, flavones, terpenes, and alkaloids, with health-promoting effects. In the present study, we investigated the phytochemical composition of leaves of the industrial hemp cultivar , a monoecious cultivar commercially used for food preparations or cosmetic purposes. Leaves are generally discarded, and represent waste products. We analyzed the methanol extract of leaves by HPLC and NMR spectroscopy and the essential oil by GC-MS. In addition, in order to compare the chemical constituents, we prepared the water infusion. One new cannabinoid derivative () and seven known components, namely, cannabidiol (), cannabidiolic acid (), β-cannabispirol (), β-cannabispirol (), canniprene (), cannabiripsol (), and cannflavin B () were identified. The content of CBD was highest in all preparations. In addition, we present the outcomes of a computational study focused on elucidating the role of 2α-hydroxy-Δ-cannabitriol (), CBD (), and CBDA () in inflammation and thrombogenesis.