Home | Orthoiodosupplementation | Body | Disease | Special | Overviews

Special Topics

Physiology

Transporters

Pendrin

• Everett
• Filetti
• Fugazzola
• Gene Reports
• Gillam, Kopp
• Hulander
• Kim, Nielsen
• Matsushima
• Nilsson
• Porra
• Quentin
• Rillema
• Salvatore
• Schlumberger
• Scott
• Soleimani
• Skubis-Zegadlo
• Suzuki
• Taylor
• Van den Hove
• Wagner
• Wall
• Xing, Sidransky
• Yoshino

Schlumberger

Sodium iodide symporter and pendrin expression in human thyroid tissues.

Mian C, Lacroix L, Alzieu L, Nocera M, Talbot M, Bidart JM, Schlumberger M, Caillou B.

Thyroid. 2001 Sep;11(9):825-30.

[abstract only]

"Thyroid cells synthesize thyroid hormones through a multistep process during which iodide is transported through the basolateral and the apical membranes of thyrocytes. Two genes that participate in these transports and the corresponding proteins, namely sodium iodide symporter (NIS) and pendrin, the product of the Pendred syndrome gene, have recently been characterized. We studied NIS and pendrin expression at the mRNA and protein levels by a quantitative reverse transcription-polymerase chain reaction (RT-PCR) method and by single and double immunostaining in normal and pathological human thyroid tissues. In normal tissue, NIS and pendrin were detected in about 20% and 40%-60% of thyrocytes, respectively. The number of NIS- and pendrin-positive cells was much higher in hyperfunctioning tissue from Graves' disease or toxic adenoma. In hypofunctioning adenomas and carcinomas, the number of NIS- and pendrin-positive cells was low or nonexistent. Three types of follicular cells were observed in positive tissues: NIS-negative/pendrin-negative cells, NIS-positive/pendrin-positive cells, and NIS-negative/pendrin-positive cells. The first two types of cells appear to be resting and active cells, respectively, but the functional status of NIS-negative/pendrin-positive thyrocytes remains to be determined."

Expression pattern of the pendrin and sodium/iodide symporter genes in human thyroid carcinoma cell lines and human thyroid tumors.

Arturi F, Russo D, Bidart JM, Scarpelli D, Schlumberger M, Filetti S.

Eur J Endocrinol. 2001 Aug;145(2):129-35.

"OBJECTIVE: In the present study we analyzed the pattern of pendrin (PDS) and sodium/iodide symporter (NIS) gene expression in some thyroid carcinoma cell lines and a series of thyroid tumoral tissues.

METHODS: Total RNA was extracted from all cell lines and from 53 tissues, and gene expression was examined by RT-PCR. Semiquantitative 'multiplex' RT-PCR was used to assess variations in PDS gene expression among various thyroid pathologies. Pendrin expression was determined in the thyroid cell lines by Western blot analysis.

RESULTS: PDS mRNA was expressed in all the cells investigated; conversely, NIS mRNA was detectable only in the B-CPAP cells. Pendrin protein was expressed in B-CPAP and WRO cell lines, reduced in FRO and absent in ARO cells. PDS gene expression was not detected in 5 of 25 differentiated thyroid carcinomas (DTC) while NIS gene was not expressed in six carcinomas. A concordance expression of both PDS and NIS transcripts was found in 20 DTC. In contrast, 2 neoplastic thyroid tissues carrying undetectable PDS mRNA maintained NIS transcript, and 3 thyroid carcinomas negative for NIS mRNA retained the expression of PDS gene. A semiquantitative analysis showed that the mean PDS mRNA levels were significantly decreased in DTC tissues.

CONCLUSIONS: Our data demonstrate that pendrin expression: (i) is present in the more differentiated thyroid carcinoma cell lines studied; (ii) is reduced or absent in DTC tissues; (iii) may not correlate with the NIS expression. These alterations may contribute to the loss of iodine concentration ability detected in thyroid tumors."
 

Expression of pendrin and the Pendred syndrome (PDS) gene in human thyroid tissues.

Bidart JM, Mian C, Lazar V, Russo D, Filetti S, Caillou B, Schlumberger M.

J Clin Endocrinol Metab. 2000 May;85(5):2028-33.

"The gene recently cloned that is responsible for the Pendred syndrome (PDS), an autosomal recessive disease characterized by goiter and congenital sensorineural deafness, is mainly expressed in the thyroid gland. Its product, designated pendrin, was shown to transport chloride and iodide. To investigate whether the PDS gene is altered during thyroid tumorigenesis, PDS gene expression and pendrin expression were studied using real-time kinetic quantitative PCR and antipeptide antibodies, respectively, in normal, benign, and malignant human thyroid tissues. The results were then compared to those observed for sodium/iodide symporter (NIS) expression. In normal tissue, pendrin is localized at the apical pole of thyrocytes, and this in contrast to the basolateral location of NIS. Immunostaining for pendrin was heterogeneous both inside and among follicles. In hyperfunctioning adenomas, the PDS messenger ribonucleic acid level was in the normal range, although immunohistochemical analysis showed strong staining in the majority of follicular cells. In hypofunctioning adenomas, mean PDS gene expression was similar to that detected in normal thyroid tissues, but pendrin immunostaining was highly variable. In thyroid carcinomas, PDS gene expression was dramatically decreased, and pendrin immunostaining was low and was positive only in rare tumor cells. This expression profile was similar to that observed for the NIS gene and its protein product. In conclusion, our study demonstrates that pendrin is located at the apical membrane of thyrocytes and that PDS gene expression is decreased in thyroid carcinomas."

More articles by Filetti, et al

 Home | Orthoiodosupplementation | Body | Disease | Special Topics | Overviews  

The Iodine Group | Books | Disclaimers | Contact Us | Search  

  Copyright: Zoe, 2006.