- Effect of LiCl on Iodine Kinetics in Thyroid Cancer Cell Lines Transduced by Recombinant Adenovirus Containing Sodium Iodide Symporter(NIS) Gene.
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Won Bae Kim, Ja Young Song, Sung Min Han, Jeong Seok Yeo, Heui ran Lee, Young Kee Shong, Dae Hyuk Moon
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J Korean Endocr Soc. 2003;18(2):166-176. Published online April 1, 2003
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 Abstract
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- BACKGROUND
Lithium is known to increase the retention of iodide in the thyroid gland, or in well differentiated thyroid cancer tissue. The effects of lithium on the function of the sodium iodide symporter (NIS) protein, especially when the lithium is increased in the retention of iodide in NIS-producing cells, the effect of lithium, on the kinetics of undifferentiated thyroid cancer cells transduced by a recombinant adenovirus containing the NIS gene, were checked. METHOD: Human NIS cDNA was inserted into pAxCAwt, a recombinant adenoviral cosmid vector, where the E1 & E2 genes have been deleted, making Rad-hNIS, which was propagated in 293 cells. The iodide uptake was evaluated by the 125I uptake assay in the undifferentiated thyroid cancer cells, ARO, FRO and NPA, following the infection with Rad-hNIS (1 or 10 MOI) in the presence, or absence, of LiCl at optimized concentrations. The iodide efflux was evaluated by the 125I efflux assay, for 1 hour, in the same cells expressing the NIS in the presence, or absence, of LiCl. Similar experiments were performed in the normal thyroid cell line, FRTL-5, cultured in 6H5 media. RESULTS: LiCl, at concentrations over 1.0mM, caused a significant decrease in the cell viability, as evaluated by trypan blue dye exclusion, in a dose dependent manner. When infected with Rad-hNIS, the iodide uptake was not affected by the LiCl in the ARO or NPA cells. However, LiCl(0.1and 1.0mM) increased the iodide uptake by 50 to 100%(vs. control) in the Rad-hNIS transduced FRO cells. In the Rad-hNIS transduced FRO cells, the iodide was released rapidly from the cells, with only 20.7+/-4.8% of the iodide uptake remaining at 1 hour, which was no different in the presence of LiCl (24.5+/-7.9%). The iodide efflux was not affected by the LiCl in the FRTL-5 cells cultured in the presence of TSH. CONCLUSION: These results suggest that the lithium-induced iodide retention in the thyroid gland, or in well differentiated thyroid cancer tissue, is not caused by the effect of the lithium on the NIS function, or the function of proteins or channels, involved in iodide transport via cell membranes. Although the iodide uptake can be markedly increased by the expression of NIS, with the transduction of Rad-hNIS, in undifferentiated thyroid cancer cells, the iodide taken up is rapidly released from the cells. A method for inducing the iodide retention in the cell should be elucidated in order to render the NIS gene therapy effective.
- Enhanced Effect of Iodide - Uptake in Thyroid Carcinoma Cells by Infecting Adenovirus - Human Sodium Iodide Symporter (Ad - hNIS).
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Kun Koo Park, Jung Sun Jin, Seong Jin Lee, Jung Yoon Park, Heui Ran Lee, Dae Hyuk Moon, Il Min Ahn, Hye Sook Chang
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J Korean Endocr Soc. 2000;15(4-5):522-531. Published online January 1, 2001
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Abstract
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- BACKGROUND
The sodium-iodide-symporter (NIS) is a plasma membrane glycoprotein with 13 putative transmembrane domains, which is responsible for concentrating iodide into the thyroid by an active transport and provides the mechanism for radioactive-iodine (RAI) therapy for thyroid cancer. However, undifferentiated thyroid cancers and about 2050% of differentiated thyroid cancers do not take up the RAI at therapeutic dose. The NIS has been cloned from rat and human (hNIS) and characterized recently. In an attempt to develop a new therapeutic strategy using hNIS gene for improving the efficacy of RAI therapy in thyroid cancers, we have constructed a recombinant adenovirus encoding the hNIS (Ad-hNIS) and tested its function by an iodide uptake by infecting human thyroid cancer cells. METHODS: RT-PCR was performed to measure an intrinsic hNIS expression in thyroid cancer cell lines, such as NPA, FRO and ARO. To generate the hNIS adenovirus, hNIS cDNA was isolated and ligated into Swa I site of cosmid shuttle vector (pAxCAwt). We have produced recombinant adenovirus by co-transfecting the cosmid with DNA-TPC to 293 cell line. Adenovirus that express (beta-Galactosidase (LacZ) was also prepared by the similar strategy. Adenovirus infection efficiency was measured in three thyroid cancer cell lines. Finally, 24 hours after infection of ad-hNIS into the cells, I125-uptake was measured. RESULTS: Endogenous hNIS expression was detected only in FRO cells but not in NPA, ARO and Hela cells by RT-PCR. X-Gal staining after infection of Ad-LacZ to thyroid cancer cell (NPA, ARO, FRO) showed that an infection rate in ARO cells was 98.5+0.5%, 97.0+0.2% in FRO cells and 75.5+5.0% in NPA cells. We selected ARO cells for the infection of Ad-hNIS due to the highest infection efficiency and the absence of endogenous hNIS expression. When ARO cells were infected with the ad-hNIS, I125 uptake was increased 504+6.4%. CONCLUSION: Overexpression of hNIS gene in thyroid cancer cells elicited over 5 fold increase in I-uptake, suggesting that the Ad-hNIS infection to the thyroid cancer cells may improve the efficiency of radioactive iodine therapy.
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