ObjectiveTo establish an animal model of anaplastic thyroid cancer with high metastatic activity as in human body. MethodsHuman anaplastic thyroid cancer cell line TAK was injected into one of the lateral lobes of the thyroid gland, as well as in the subcuitis in a series of nude mice. Mice were sacrificed when found moribund, and autopsy and histology were performed subsequently.ResultsThe implantation of human anaplastic thyroid cancer cells in an ectopic enviroment did not permit expression of metastasis potential. In contrast, intrathyroid implantation did. Lymph node (5/10), lung (3/10) and one metastasis (1/10) were noted upon histological examination. ConclusionAn animal model with high metastatic activity is established when human anaplastic thyroid cancer cell line TAK is implanted orthotopically into nude mice.
【Abstract】ObjectiveTo study the antitumor effects of DNA electrotransfer in muscle (ETM) by using established animal model for human anaplastic thyroid cancer cell line TA-K.MethodsNude mice with implanted TA-K were divided into five groups including: control group, pcDNA-3 plasmid electrotransfered into muscle (pcDNA ETM group), TIMP-3 plasmid injected into muscle (TIMP-3 IM group), TIMP-3 plasmid electrotransfered into muscle (TIMP-3 ETM group), TIMP-3 plasmid electrotransfered into implanted tumor (TIMP-3 ETT group). Electrical parameters used in electrotransfer were: 200 V/cm, 20 ms/pulse; 8 pulses, 1 Hz in muscle and 600 V/cm, 20 ms/pulse; 1 pulses, 1 Hz in implanted tumor respectively. ResultsThe growth of TA-K was inhibited more significantly in the groups of TIMP-3 plasmid electrotransfered into muscle and TIMP-3 plasmid electrotransfered into implanted tumor than the other groups (P<0.05), and the content of TIMP-3 protein in tumor tissues was higher in these two groups . ConclusionAnti-oncogene has the antitumor effects by DNA electrotransfer in muscle.