Molecular Strings Significantly Improved the Gene Transfection Efficiency of Polycations.

High transfection efficiency and low cytotoxicity are the two key factors to be considered in the design of gene carriers. Herein, a novel and versatile gene carrier (PLL-RT) was prepared by introducing "molecular string" RT (i.e., p-toluylsulfonyl arginine) onto the polylysine backbone. The introduction of RT string contributed to the formation of multiple interactions between the polycationic gene carriers and cell membrane or DNA, as well as adopting α-helix conformation, all of which would be beneficial to enhance the gene transfection. In addition, RT string grafted onto other polycations such as hyperbranced PEI25k and dendrimer PAMAM could also acquire improved transfection efficiency and low cytotoxicity. Moreover, PLL-RT presented significant tumor inhibition effect in vivo. This work provided an effective strategy for constructing novel gene carriers with high transfection and low cytotoxicity.

[Analysis of the relationship between the reactivity of synthetic substrates and thrombin inhibitors and their structure]. / Issledovanie zavisimosti reaktsionnoi sposobnosti sinteticheskikh substratov i ingibitorov trombina ot ikh stroeniia.

Kinetics of thrombin- and trypsin-catalyzed hydrolysis of diphenylacetyl-L-arginine esters was studied at pH 8.5 and 25 degrees C, and the antithrombin activity of in vitro synthesized compounds was examined. The anticlotting activity of arylsulphonyl-L-arginine methyl esters appeared to be higher than that of the derivatives of diphenyl arginine. Relations were found connecting polar (delta) and steric (Es) characteristics of substituent (R) in R-C6H4-SO2-Arg-OCH3 esters with their antithrombin activity in vitro or with efficiency of their thrombin-catalyzed hydrolysis. This gives supplementary possibilities for synthesis of new substrates and more potent thrombin inhibitors.