Abstract
Among more than 3000 analogs of 1α,25-dihydroxyvitamin D 3 synthesized to date, only a few were characterized by structural modifications in the seco-B-ring. The compounds alkylated at C-6 seemed to be interesting targets for synthetic efforts. Such vitamin D analogs easily undergo thermal conversion to their previtamin forms. The results of molecular modeling indicate that significant deviation from planarity must be present in their molecules associated with the interaction of the 6-alkyl substituent and hydrogens from the C-ring. The synthesis of the analog of 1α,25-(OH) 2D 3, being characterized by the presence of the 6-methyl group, is reported here, together with the results of preliminary testing of its biological potency. This 6-alkylated compound was efficiently prepared using a novel stereoconvergent strategy in which the ring A and the triene unit of the vitamin D skeleton are constructed by a one-pot Pd-catalyzed tandem cyclization-Negishi coupling process.
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