Abstract
An unusual enzyme called telomerase acts on parts of chromosomes known as telomeres. The enzyme has recently been found in many human tumors and is viewed as a new target for tumor therapy. In this research, we chose the analogue of guanine "2',3'-dideoxyguanosine" (ddG) as the telomerase inhibitor and prepared the ddG-loaded cationic nanoliposomes (ddG-Clip) to specifically target the tumor tissue and preferentially occupy the telomerase nucleotide binding site. The mean diameter of ddG-Clip is 101.54 ± 2.60 nm and they are cationically charged with a zeta potential of 34.0 ± 9.43 mV; also, the encapsulation efficiency of ddG-Clip is 53.44% ± 2.29%. In vitro cytotoxicity results show that cationic nanoliposomes by themselves are almost non-toxic, but with the increase in ddG concentration, ddG-Clip has the ability to kill S180 tumor cells. The anti-tumor activity study suggests that ddG-Clip could not only suppress the tumor growth, but also inhibit tumor liver metastasis well. In conclusion, reverse transcriptase inhibitor-loaded cationic nanoliposomes could interfere with the synthesis of telomeric DNA and block abnormal proliferation of tumor cells, therefore achieving tumor apoptosis.