Organotellurides in the preparation of Bioactive compounds

One of the main purposes of this work was to develop a new direct methodology to prepare functionalized organic tellurides, to be submitted to a series of different reactions, as for example the Te/Li exchange reaction, aimed to afford synthetic equivalents of several organometallic reagents. Zinc, copper and cerium organometallic compounds were generated via a transmetalation reaction of the lithium species, and were reacted with several electrophiles. As a result, 1,4-hydroxyketones could be successfully prepared. According to this methodology, an enantioenriched 1,4-hydroxyketone could be obtained, using a chiral telluride as starting material. This chiral nonracemic intermediate was employed in an enantioselective formal synthesis of (-)-Pyrenophorin. Cuprates and other organometallic reagents, prepared from a specific telluride and using the above described methodology, were the choosen nucleophiles for performing some aliphatic substitution reactions and, in particular, for the ring opening of epoxides. The resulting products were employed as building blocks for the synthesis of the bioactive cyclic compounds Endo-Brevicomin and Frontalin. The direct reaction of the chiral dilithiated specie with benzonitrile afforded a 1,4-hydroxyketone as an analogue of Ipomeanol, a bioactive compound for cancer therapy. Bis-anionic sililated species, prepared from a telluride, were submitted to reaction with a series of aldehydes. Such reactions, in which CeCl3 was employed as catalyst, showed to be highly diastereoselectives, affording (E)-1,4-enediols in good yields. The pericyclic reaction of insaturated tellurides was also investigated. It is worth mentioning that the same Diels-Alder reaction could be performed either with tellurium II or tellurium IV species. (AU)