RT Journal Article SR Electronic T1 Effects of 125I-Labeled Peptide Nuclear Acid Targeting Ki67 on the Growth of Implanted Human Renal Cell Carcinoma in Nude Mice JF Chinese Journal of Clinical Oncology JO Cancer Biol Med FD China Anti-Cancer Association SP 448 OP 453 VO 1 IS 6 A1 Jiacun Chen A1 Junnian Zheng A1 Song Wu A1 Haibiao Lai A1 Xiaoqing Sun A1 Junjie Liu YR 2004 UL http://www.cancerbiomed.org/content/1/6/448.abstract AB OBJECTIVE To investigate the potential of 125I-labeled anti-sense peptide nucleic acids (125I-AS-PNAs) to inhibit the expression of the Ki-67 gene and growth of implanted human renal carcinoma cells in nude mice.METHODS Anti-sense peptide nucleic acids (AS-PNAs) targeting the Ki67 gene were synthesized and labeled with 125I by the Chloraseptine-T method. Drugs including PNAs and 125I-AS-PNAs capsulated by cationic lipid were directly injected into tumors in nude mice. The Ki67 expression in tumors was detected by an immunohistochemical technique and Western blot. The apoptosis of tumor cells was detected by a TUNEL assay. Tumor volumes were measured every 3 days and tumor suppression rates were calculated at 12 days after treatment. Control groups were treated with AS-PNA, MM-PNAs (mismatch PNAs) and 125I-Na.RESULTS The Ki67 expression rate of tumors treated by 125I-AS-PNAs [(15.3±1.8)%] was lower than that treated by AS-PNAs [(23.0±2.4)%] (P< 0.01). The Ki67 protein production rate of tumors treated by 125I-AS-PNAs [(43.6±3.5)%] was lower than that treated by AS-PNAs [(59.7±2.3)%] (P< 0.01). The apoptosis rate of tumors treated by 125I-AS-PNAs [(40.3±2.4)%] was higher than that treated by AS-PNAs [(31.1 ±2.0)%] (P<0.01). The volume of tumors treated by 125I-AS-PNAs [(330.4±57.8) mm3] was smaller than that treated by AS-PNAs[(513.2±64.2)mm3] (P<0.01).CONCLUSION 125I-AS-PNAs targeted against the Ki67 gene have a greater inhibitory effect on the expression of the Ki67 gene and a larger apoptotic action on human renal carcinoma cells and can more efficiently inhibit tumor growth than AS-PNAs. 125I-AS-PNAs targeting the Ki67 gene may be a promising anti-sense/anti-gene radiotherapy method for treating renal cell carcinoma.