- Allelotyping and Comparative Genomin Hybridization Studies in Papillary Thyroid Carcinomas and Follicular Adenomas.
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Il Min Ahn, Eun Sook Kim, Hyun Soo Park, Ki Young Park, Seok Jun Hong, Kyung Yub Gong, Jin Yub Kim, Sung Bae Kim, Sang Hee Kim, Sung Jin Lee, Jung Hee Han, Kwan Ja Jee
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J Korean Endocr Soc. 1999;14(2):314-322. Published online January 1, 2001
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 Abstract
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- BACKGROUND
In our previous study, the prevalence of the known causes of thyroid tumorigenesis was relatively rare in Korean population, suggesting genetic and environmental differences exist. Screening of genetic alteration in papillary thyroid carcinoma(PTC) and follicular adenoma(FA) in whole genomic scale was needed prior to search on individual genes of possible causes. METHODS: Ten cases of PTC without ret/PTC-I, -2, -3 rearrangement and 5 cases of follicular adenoma were included in the study of microsatellite marker allelotyping. Sixty two microsatellite markers available, were chosen to cover the known sites of loss of heterozygosity(LOH) involved in thyroid tumors, tumor suppressor genes and terminal portion of each chromosomes. PCR was performed on tumor DNA and leukocytes DNA from each patient with MDE gel electrophoresis to detect LOH. Same specitnens as above, 3 case of normal thyroid tissues and NPA, ARO cell lines were included in the study of comparative genomic hybridization(CGH). Tumor and control DNAs were hybridized to metaphase chromosome with differential stainings with fluorescein and rhoda-mine-dUTP. Obtained results were analyzed by multicolor fluorescence computer assisted image analyzer. RESULTS: In allelotyping, LOH were detected in 5 cases of PTC, 2 cases on D10S1435, 1 case each on D2S1780, DSS1099, D11S1986, D16S539, 1 case of PTC revealed LOH on DSS1099, D11S1986. In FA, LOH were detected in 3 cases on D1S534, D1S226, Dl 1S907, D22S683, DXS9807. In CGH, Xp addition was noticed in 1 case of PTC, 12q and 10p addition was noticed in 1 case each, 16q deletion and 17q addition in 1 case of FA. CONCLUSION: No hot spot of LOH was noticed in microsatellite marker allelotyping, neither of common chromosomal change in CGH study suggesting unbalanced translocation or gene amplification more than 5-10 Mb may be involved in the genetic alteration of PTC and FA.
- Prevalence of Gsa, ras, p53 Mutations and ret/PTC Rearrangement in Differentiated Thyroid Tumors of Korean Population.
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Il Min Ahn, Young Il Kim, Hyun Soo Park, Ki Young Park, Seok Jun Hong, Eun Joo Lee, Kyung Yub Gong
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J Korean Endocr Soc. 1998;13(2):189-197. Published online January 1, 2001
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Abstract
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In thyroid tumor, ras, Gsa, p53 mutation and ret/FfC rearrangement have been reported with variable prevalences in different geographic regions. We studied the prevalences of these mutations and reammgement in thyroid tumors of Korean population. METHODS: Eleven cases of adenamatous goiter, 8 cases of follicular adenoma, 5 cases of foliicular carcinoma, 37 cases of papillary carcinoma were included in this study. To find mutations and rearrangement, RT-PCR, SSCP, and/or direct sequencing, after subcloning if necessary, were used. RESULTS: We could not find any rearrangment for ret/PTC-l, -2, -3 and mutations of Gsa. For ras oncogene, K and H-ras mutations were not found, but N-ras mutations, point mutation of CAA to CGA in codon 61, were detected in 1 follicular adenoma(12.5%, 1/8) and 1 follicular carcinoma(33%, 1/3). And p53 mutations were detected only in 1 case of papillary carcinoma (3%, 1/31: exon 8, codon 266 GGA-GAA). CONCLUSION: ret/PTC rearrangement, Gsa, ras and p53 mutations are relatively rare in differentiated thyroid neoplasms of Korean population, which may reflect the genetic and environmental differences from those countries with high prevalence.
- Expression of Human Sodium Iodide Symporter mRNA in Papillary Thyroid Carcinoma.
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Hong Kyu Kim, Il Min Ahn, Young Il Kim, Eun Sook Kim, Hyun Soo Park, Ki Young Park, Seok Jun Hong
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J Korean Endocr Soc. 1998;13(2):181-188. Published online January 1, 2001
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Abstract
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The sodium iodide symporter(NIS) is a plasma membrane protein which is respoasibIe for iodide transport into thyroid cell. The cDNA sequence of NIS has recently been cloned from rat and human. Intrinsic ability and its differences in iodide accumulation have been exploited as a useful tool for diagnosis and therapy of thyroid diseases. It is also known that some differentiated thyroid cancers do not take up radioactive iodine at therapeutic dose. METHODS: To understand the expression and regulation of NIS in thyroid tumars, we measured the expressons of human NIS(hNIS), TSH-receptor(R), and thyroglohulin(Tg) mRNAs from papillary thyroid carcinoma(PTC) tissues by reverse transcriptase-polymerase chain reaction (RT-PCR) and RNase protection assay(RPA). RESULT: By RT-PCR analysis, 87% of PTC expressed hNIS mRNA, but the degree of expression were variable. Interestingly, 32% of PTC showed significant level of hNIS expression even though pre-operative technetium thyroid scan of all thyroid tumors were cold but the level was lower than normal control tissues. All of PTC showed the expressions of Tg and TSH-R mRNAs and there was a correlation between hNIS mRNA and TSH-R mRNA(Rsq 0.35, p=0.01). By RPA, the expression of hNIS and TSH-R in normal control tissue were detected with 20microgram and 40microgram of total RNA respectively, but the higher concentrations(> or =60microgram for hNIS and > or =40microgram for TSH-R) were required to detect in PTC, showing that tbe expression of hNIS in FTC was lower than TSH-R expression. CONCLUSION: PTC tends to lose hNIS mRNA expression earlier than TSH-R mRNA and the measurement of hNIS mRNA in PTC may be useful as an indicator of the therapeutic response to radioactive iodine.
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