ABSTRACT
The synthesis of 4'-ethynyl-2'-deoxy-4'-thioribonucleosides was carried out utilizing an electrophilic glycosidation in which 4-ethynyl-4-thiofuranoid glycal 16 served as a glycosyl donor. Electrophilic glycosidation between 16 and the silylated nucleobases (N4-acetylcytosine, N6-benzoyladenine and N2-acetyl-O6-diphenylcarbamoylguanine) was carried out in the presence of N-iodosuccinimide (NIS) leading to the exclusive formation of the desired ß-anomers 29, 33 and 36. Anti-HIV studies demonstrated that these 4'-thio nucleosides were less cytotoxic to T-lymphocyte (i.e. MT-4 cells) than the corresponding 4'-ethynyl derivatives of 2'-deoxycytidine (44), 2'-deoxyadenosine (45) and 2'-deoxyguanosine (46). Comparison of the selectivity indices (SI) was made between 4'-thionucleosides (32, 41 and 43) and the corresponding 4'-oxygen analogues 44-46 by using the reported CC50 and EC50 values. In the case of cytosine and adenine nucleosides, comparable SI values were obtained: 32 (545) and 45 (458); 41 (>230) and 45 (1,630). In contrast, 4'-ethynyl-2'-deoxy-4'-thioguanosine 43 was found to possess a SI value of >18,200, which is twenty times better than that of 46 (933).
ABSTRACT
Synthesis of 4'-C-ethynyl-2'-deoxy-4'-thionucleosides was carried out based on electrophilic glycosidation using 4-C-ethynyl-4-thiofuranoid glycal. The glycal 15 was prepared as follows: oxidative cleavage of 6 with Pb(OAc)(4) forming the aldehyde 7, aldol reaction of 7 and subsequent silylation to furnish 8, conversion of the formyl group of 8 into an ethynyl group, and finally beta-elimination of the resulting 14 with t-BuLi. The glycosyl donor 16 was prepared by silyl-protection of 15. Electrophilic glycosidation was performed between silylated N(4)-acetylcytosine and 16 in the presence of N-iodosuccinimide. Radical-mediated removal of the introduced iodine atom followed by deprotection gave 4'-C-ethynyl-2'-deoxy-4'-thiocytidine (18).
