A new approach has been developed for the synthesis of potential inhibitors of S-adenosyl-l-homocysteine (AdoHcy) hydrolase. The key intermediate 9-[2,3-bis-O-(tert-butyldimethylsilyl)-5-(Z)-(tributylstannyl)-5-deoxy-beta-d-erythro-pent-4-enofuranosyl]adenine (12) was prepared by sulfur extrusion reaction of 4',5'-didehydro-5'-deoxy-5'-(phenylthio)adenosine (11) with tributyltin radical. It was found that this reaction proceeds stereoselectively, forming 12 irrespective of the geometry of 11. Compound 12 readily underwent iodination, bromination, and chlorination with retention of configuration, whereas fluorination gave both (Z)- and (E)-isomers of vinyl fluoride. Because of the susceptibility of 12 to protodestannylation, the (Z)-vinyl iodide (13), prepared in quantitative yield from 12, was used as a substrate for C-C bond formation. Various types of carbon substituents (phenyl, vinyl, trifluorovinyl, ethynyl, and cyano) were introduced to the 5'-position of the 5-deoxy-beta-d-erythro-pent-4-enofuranosyl structure to open up a new route to potential inhibitors of AdoHcy hydrolase.
The bis(tributylstannyl) derivative of 2′ ′,3′ ′-didehydro-2′ ′,3′ ′-dideoxyuridine (d4U) underwent an anionic 5′ ′-O→3′ ′-C stannyl migration to yield the 3′ ′-tributylstannyl-d4U. This compound, with its vinylstannane structure, allowed ready access to the preparation of 3′ ′-carbon-substituted analogues through the Stille reaction. A conventional transformation of the uracil moiety of these d4U analogues led to the corresponding 2′ ′,3′ ′-didehydro-2′ ′,3′ ′-dideoxycytidine (d4C) counterparts. Some 2′ ′,3′ ′-dideoxycytidine (ddC) analogues were also synthesized. Antiviral evaluation revealed that none of these analogues showed activity against HIV, hepatitis B virus, herpes simplex virus-1 (HSV-1) and HSV-2.
Methods are described for the synthesis of the 2'-tributylstannyl derivative of 2',3'-didehydro-2',3'-dideoxyuridine (d4U). Two approaches were investigated: radical-mediated desulfonylative stannylation of the 2'-benzenesulfonyl derivative of d4U and sulfoxide-metal exchange reaction of the 2'-benzenesulfinyl derivative. The latter approach was found to give the desired 2'-stannyl derivative in good yield. It was also shown that manipulations of the stannyl group allowed the introduction of a variety of carbon-substituents to the 2'-position by applying the Stille reaction. The whole reaction sequence has opened up a highly general entry to 2'-carbon-substituted analogues of d4U.
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