par Evdokimov, Nikolai M;Lamoral-Theys, Delphine 
;Mathieu, Véronique ;Andolfi, Anna;Frolova, Liliya V;Pelly, Stephen C;van Otterlo, Willem A L;Magedov, Igor V;Kiss, Robert ;Evidente, Antonio;Kornienko, Alexander
Référence Bioorganic & medicinal chemistry, 19, 23, page (7252-7261)
Publication Publié, 2011-12
;Mathieu, Véronique ;Andolfi, Anna;Frolova, Liliya V;Pelly, Stephen C;van Otterlo, Willem A L;Magedov, Igor V;Kiss, Robert ;Evidente, Antonio;Kornienko, AlexanderRéférence Bioorganic & medicinal chemistry, 19, 23, page (7252-7261)
Publication Publié, 2011-12
Article révisé par les pairs
| Résumé : | As a continuation of our studies aimed at the development of a new cytostatic agent derived from an Amaryllidaceae alkaloid lycorine, we synthesized 32 analogues of this natural product. This set of synthetic analogues included compounds incorporating selective derivatization of the C1 versus C2 hydroxyl groups, aromatized ring C, lactamized N6 nitrogen, dihydroxylated C3-C3a olefin functionality, transposed olefin from C3-C3a to C2-C3 or C3a-C4, and C1 long-chain fatty esters. All synthesized compounds were evaluated for antiproliferative activities in vitro in a panel of tumor cell lines including those exhibiting resistance to proapoptotic stimuli and representing solid cancers associated with dismal prognoses, such as melanoma, glioblastoma, and non-small-cell lung cancer. Most active analogues were not discriminatory between cancer cells displaying resistance or sensitivity to apoptosis, indicating that these compounds are thus able to overcome the intrinsic resistance of cancer cells to pro-apoptotic stimuli. 1,2-Di-O-allyllycorine was identified as a lycorine analogue, which is 100 times more potent against a U373 human glioblastoma model than the parent natural product. Furthermore, a number of synthetic analogues were identified as promising for the forthcoming in vivo studies. |
