Proto-oncogene PBF/PTTG1IP regulates thyroid cell growth and represses radioiodide treatment

Pituitary tumor transforming gene (PTTG)-binding factor (PBF or PTTG1IP) is a little characterized proto-oncogene that has been implicated in the etiology of breast and thyroid tumors. In this study, we created a murine transgenic model to target PBF expression to the thyroid gland (PBF-Tg mice) and...

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Veröffentlicht in:	Cancer research (Chicago, Ill.) Ill.), 2011-10, Vol.71 (19), p.6153-6164
Hauptverfasser:	Read, Martin L, Lewy, Greg D, Fong, Jim C W, Sharma, Neil, Seed, Robert I, Smith, Vicki E, Gentilin, Erica, Warfield, Adrian, Eggo, Margaret C, Knauf, Jeffrey A, Leadbeater, Wendy E, Watkinson, John C, Franklyn, Jayne A, Boelaert, Kristien, McCabe, Christopher J
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Schlagworte:	Animals Cell Proliferation Cyclin D1 - genetics Cyclin D1 - metabolism Gene Expression Regulation Goiter, Nodular - metabolism Goiter, Nodular - pathology Humans Hyperplasia - metabolism Hyperplasia - pathology Intracellular Signaling Peptides and Proteins Iodine - metabolism Iodine Radioisotopes Membrane Proteins - genetics Membrane Proteins - metabolism Mice Mice, Transgenic Proto-Oncogene Mas Symporters - genetics Symporters - metabolism Thyroid Gland - metabolism Thyroid Gland - pathology
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container_title	Cancer research (Chicago, Ill.)
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creator	Read, Martin L Lewy, Greg D Fong, Jim C W Sharma, Neil Seed, Robert I Smith, Vicki E Gentilin, Erica Warfield, Adrian Eggo, Margaret C Knauf, Jeffrey A Leadbeater, Wendy E Watkinson, John C Franklyn, Jayne A Boelaert, Kristien McCabe, Christopher J
description	Pituitary tumor transforming gene (PTTG)-binding factor (PBF or PTTG1IP) is a little characterized proto-oncogene that has been implicated in the etiology of breast and thyroid tumors. In this study, we created a murine transgenic model to target PBF expression to the thyroid gland (PBF-Tg mice) and found that these mice exhibited normal thyroid function, but a striking enlargement of the thyroid gland associated with hyperplastic and macrofollicular lesions. Expression of the sodium iodide symporter (NIS), a gene essential to the radioiodine ablation of thyroid hyperplasia, neoplasia, and metastasis, was also potently inhibited in PBF-Tg mice. Critically, iodide uptake was repressed in primary thyroid cultures from PBF-Tg mice, which could be rescued by PBF depletion. PBF-Tg thyroids exhibited upregulation of Akt and the TSH receptor (TSHR), each known regulators of thyrocyte proliferation, along with upregulation of the downstream proliferative marker cyclin D1. We extended and confirmed findings from the mouse model by examining PBF expression in human multinodular goiters (MNG), a hyperproliferative thyroid disorder, where PBF and TSHR was strongly upregulated relative to normal thyroid tissue. Furthermore, we showed that depleting PBF in human primary thyrocytes was sufficient to increase radioiodine uptake. Together, our findings indicate that overexpression of PBF causes thyroid cell proliferation, macrofollicular lesions, and hyperplasia, as well as repression of the critical therapeutic route for radioiodide uptake.
doi_str_mv	10.1158/0008-5472.CAN-11-0720
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We extended and confirmed findings from the mouse model by examining PBF expression in human multinodular goiters (MNG), a hyperproliferative thyroid disorder, where PBF and TSHR was strongly upregulated relative to normal thyroid tissue. Furthermore, we showed that depleting PBF in human primary thyrocytes was sufficient to increase radioiodine uptake. 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In this study, we created a murine transgenic model to target PBF expression to the thyroid gland (PBF-Tg mice) and found that these mice exhibited normal thyroid function, but a striking enlargement of the thyroid gland associated with hyperplastic and macrofollicular lesions. Expression of the sodium iodide symporter (NIS), a gene essential to the radioiodine ablation of thyroid hyperplasia, neoplasia, and metastasis, was also potently inhibited in PBF-Tg mice. Critically, iodide uptake was repressed in primary thyroid cultures from PBF-Tg mice, which could be rescued by PBF depletion. PBF-Tg thyroids exhibited upregulation of Akt and the TSH receptor (TSHR), each known regulators of thyrocyte proliferation, along with upregulation of the downstream proliferative marker cyclin D1. We extended and confirmed findings from the mouse model by examining PBF expression in human multinodular goiters (MNG), a hyperproliferative thyroid disorder, where PBF and TSHR was strongly upregulated relative to normal thyroid tissue. Furthermore, we showed that depleting PBF in human primary thyrocytes was sufficient to increase radioiodine uptake. Together, our findings indicate that overexpression of PBF causes thyroid cell proliferation, macrofollicular lesions, and hyperplasia, as well as repression of the critical therapeutic route for radioiodide uptake.</abstract><cop>United States</cop><pmid>21844185</pmid><doi>10.1158/0008-5472.CAN-11-0720</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Cell Proliferation Cyclin D1 - genetics Cyclin D1 - metabolism Gene Expression Regulation Goiter, Nodular - metabolism Goiter, Nodular - pathology Humans Hyperplasia - metabolism Hyperplasia - pathology Intracellular Signaling Peptides and Proteins Iodine - metabolism Iodine Radioisotopes Membrane Proteins - genetics Membrane Proteins - metabolism Mice Mice, Transgenic Proto-Oncogene Mas Symporters - genetics Symporters - metabolism Thyroid Gland - metabolism Thyroid Gland - pathology
title	Proto-oncogene PBF/PTTG1IP regulates thyroid cell growth and represses radioiodide treatment
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