6 resultados
The alkaloids of Catharanthus roseus vincristine 1 and vinblastine 2 are widely used in the chemotherapy of cancer. Their nitro-derivatives have also antitumour activity [2]. The dinitro-derivatives 4, 6-9 were prepared for pharmacological investigation. Some new hydroxymethyl derivatives 12-14,
Vinorelbine (VRN) is one of the most representative compounds of its class: the vinca alkaloids. VRN interferes with microtubule assembly. VRN shows a better therapeutic index than the parent compound vincristine and vinblastine probably because of its higher affinity for mitotic microtubules. VNR
Vinorelbine is a new semisynthetic vinca alkaloid that differs chemically from vinblastine by a substitution of the catharanthine moiety. The antitumour activity of vinorelbine against murine tumours, human malignant cell lines and human tumour xenografts in nude mice is evidence of its powerful
Vinorelbine is a new semisynthetic vinca alkaloid that differs chemically from vinblastine by a substitution of the catharanthine moiety. The powerful cytostatic activity of vinorelbine against murine tumors, human malignant cell lines and human tumor xenografts in nude mice has been demonstrated.
Vinflunine is a new Vinca alkaloid uniquely fluorinated, by the use of superacid chemistry, in a little exploited region of the catharanthine moiety. In vitro investigations have confirmed the mitotic-arresting and tubulin-interacting properties of vinflunine shared by other Vinca alkaloids.
Vinflunine (Javlor) is the first fluorinated microtubule inhibitor belonging to the Vinca alkaloids family. Vinflunine is obtained by semisynthesis using superacidic chemistry to selectively introduce two fluorine atoms at the 20' position of the catharanthine moiety. This compound has been selected