A general approach to the synthesis of 5-S-functionalized pyrimidine nucleosides and their analogues.

A general and efficient approach was developed for the introduction of S-functionality at the C-5 position of cytosine and uracil nucleosides and their analogues. The key step is a palladium-catalyzed C-S coupling of the corresponding 5-bromo nucleoside derivative and alkyl thiol. The butyl 3-mercaptopropionate coupling products were further converted to the corresponding disulphides, the stable precursors of 5-mercaptopyrimidine nucleosides.

Asymmetric synthesis of congested spiro-cyclopentaneoxindoles via an organocatalytic cascade reaction.

Starting from simple alkylidene oxindoles and nitroketones, a highly stereoselective methodology was developed for the synthesis of spiro-cyclopentaneoxindoles with four consecutive stereogenic centers. Using an organocatalytic cascade of Michael and aldol reactions in the presence of a chiral thiourea catalyst products were obtained in moderate to high yields and excellent enantioselectivities. Nitro, ester, and hydroxyl groups were introduced to the spiro ring, which could be used to facilitate further functionalization of the products.

Hydrogen peroxide, superoxide, and hydroxyl radicals are involved in the phototoxic action of hematoporphyrin derivative against tumor cells.

This study was aimed to estimate the participation of reactive oxygen species (ROS), other than singlet oxygen (1O2), in the antitumor effect of photodynamic therapy (PDT) with hematoporphyrin derivative (HPD) as well as to determine the ability of photoexcited HPD to the formation of protein peroxides that currently are regarded as a new form of ROS. Studies were performed on Ehrlich ascites carcinoma (EAC) cells, which were loaded with HPD in phosphate-buffered saline and then irradiated with red light at 630 run in the same buffer. Experiments indicated that H2O2 and oxygen radicals could mediate the tumoricidal action of HPD-PDT; we found that photosensitization of EAC cells with HPD leads to the formation of significant amounts of H2O2, superoxide (O2-.