The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells.

Anja Seifert; Thomas Klonisch; Jens Wulfaenger; Friedrich Haag; Henning Dralle; Jürgen Langner; Cuong Hoang-Vu; Astrid Kehlen

The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells.

Standard

The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells. / Seifert, Anja; Klonisch, Thomas; Wulfaenger, Jens; Haag, Friedrich; Dralle, Henning; Langner, Jürgen; Hoang-Vu, Cuong; Kehlen, Astrid.

In: ONCOL REP, Vol. 19, No. 6, 6, 2008, p. 1485-1491.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Seifert, A, Klonisch, T, Wulfaenger, J, Haag, F, Dralle, H, Langner, J, Hoang-Vu, C & Kehlen, A 2008, 'The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells.', ONCOL REP, vol. 19, no. 6, 6, pp. 1485-1491. <http://www.ncbi.nlm.nih.gov/pubmed/18497954?dopt=Citation>

APA

Seifert, A., Klonisch, T., Wulfaenger, J., Haag, F., Dralle, H., Langner, J., Hoang-Vu, C., & Kehlen, A. (2008). The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells. ONCOL REP, 19(6), 1485-1491. [6]. http://www.ncbi.nlm.nih.gov/pubmed/18497954?dopt=Citation

Vancouver

Seifert A, Klonisch T, Wulfaenger J, Haag F, Dralle H, Langner J et al. The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells. ONCOL REP. 2008;19(6):1485-1491. 6.

Bibtex

@article{d0c1bb032cb0402eb93d5dfbf0b82982,

title = "The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells.",

abstract = "Autotaxin (ATX/NPP2) shows a nucleotide pyrophosphatase/phosphodiesterase and lysophospholipase D (lysoPLD) activity and is a member of a family of structurally-related mammalian ecto-nucleotide pyrophosphate/phosphodiesterases (E-NPP1-3). ATX is unique among E-NPP as it is secreted and not membrane-bound as are NPP1 and -3. The ATX gene activity is significantly higher in undifferentiated anaplastic (UTC) as compared to follicular (FTC) and papillary thyroid carcinomas (PTC) or goiter tissues. ATX also enhances the motility of thyroid tumor cells. We bio-engineered stable transfectants of the human thyroid carcinoma cell line FTC-238 expressing either bioactively-secreted (sATX) or membrane-anchored ATX (mATX) to identify the biological functions of ATX which critically depend on the E-NPP member being secreted and provide insight into the effects of high local ATX concentrations and cellular responses. An increased cell motility was exclusively observed with FTC-238 sATX transfectants, whereas membrane-anchored ATX appeared to impair motility. We identified IL-1beta as an upstream suppressor of ATX expression in FTC-238, ATX-mediated motility in FTC-238 and stable transfectants, with IL-1beta having the strongest motility-suppressive effect on FTC-238 sATX clones. sATX and mATX strongly increased the anchorage-independent colony formation of FTC-238 but the size and number of colonies formed in the soft agar were significantly smaller in FTC-238 mATX versus the FTC-238 sATX clones. The cancer-testis antigen BAGE was identified as a novel target gene of ATX in FTC-238. Transcript levels for BAGE were 6-fold higher in FTC-238 mATX versus sATX clones. Increased BAGE transcript levels were also detected in tissues of patients with UTC versus FTC, PTC or goiter tissues. In summary, enhanced tumor cell motility and tumorigenic capacity critically depended on sATX in thyroid carcinoma cells. Irrespective of its compartmentalization, the cancer-testis antigen BAGE was identified as a novel target gene of ATX in FTC-238 and a potential new tissue marker in UTC tissues, which we had previously shown to express high levels of ATX.",

author = "Anja Seifert and Thomas Klonisch and Jens Wulfaenger and Friedrich Haag and Henning Dralle and J{\"u}rgen Langner and Cuong Hoang-Vu and Astrid Kehlen",

year = "2008",

language = "Deutsch",

volume = "19",

pages = "1485--1491",

journal = "ONCOL REP",

issn = "1021-335X",

publisher = "Spandidos Publications",

number = "6",

}

RIS

TY - JOUR

T1 - The cellular localization of autotaxin impacts on its biological functions in human thyroid carcinoma cells.

AU - Seifert, Anja

AU - Klonisch, Thomas

AU - Wulfaenger, Jens

AU - Haag, Friedrich

AU - Dralle, Henning

AU - Langner, Jürgen

AU - Hoang-Vu, Cuong

AU - Kehlen, Astrid

PY - 2008

Y1 - 2008

N2 - Autotaxin (ATX/NPP2) shows a nucleotide pyrophosphatase/phosphodiesterase and lysophospholipase D (lysoPLD) activity and is a member of a family of structurally-related mammalian ecto-nucleotide pyrophosphate/phosphodiesterases (E-NPP1-3). ATX is unique among E-NPP as it is secreted and not membrane-bound as are NPP1 and -3. The ATX gene activity is significantly higher in undifferentiated anaplastic (UTC) as compared to follicular (FTC) and papillary thyroid carcinomas (PTC) or goiter tissues. ATX also enhances the motility of thyroid tumor cells. We bio-engineered stable transfectants of the human thyroid carcinoma cell line FTC-238 expressing either bioactively-secreted (sATX) or membrane-anchored ATX (mATX) to identify the biological functions of ATX which critically depend on the E-NPP member being secreted and provide insight into the effects of high local ATX concentrations and cellular responses. An increased cell motility was exclusively observed with FTC-238 sATX transfectants, whereas membrane-anchored ATX appeared to impair motility. We identified IL-1beta as an upstream suppressor of ATX expression in FTC-238, ATX-mediated motility in FTC-238 and stable transfectants, with IL-1beta having the strongest motility-suppressive effect on FTC-238 sATX clones. sATX and mATX strongly increased the anchorage-independent colony formation of FTC-238 but the size and number of colonies formed in the soft agar were significantly smaller in FTC-238 mATX versus the FTC-238 sATX clones. The cancer-testis antigen BAGE was identified as a novel target gene of ATX in FTC-238. Transcript levels for BAGE were 6-fold higher in FTC-238 mATX versus sATX clones. Increased BAGE transcript levels were also detected in tissues of patients with UTC versus FTC, PTC or goiter tissues. In summary, enhanced tumor cell motility and tumorigenic capacity critically depended on sATX in thyroid carcinoma cells. Irrespective of its compartmentalization, the cancer-testis antigen BAGE was identified as a novel target gene of ATX in FTC-238 and a potential new tissue marker in UTC tissues, which we had previously shown to express high levels of ATX.

AB - Autotaxin (ATX/NPP2) shows a nucleotide pyrophosphatase/phosphodiesterase and lysophospholipase D (lysoPLD) activity and is a member of a family of structurally-related mammalian ecto-nucleotide pyrophosphate/phosphodiesterases (E-NPP1-3). ATX is unique among E-NPP as it is secreted and not membrane-bound as are NPP1 and -3. The ATX gene activity is significantly higher in undifferentiated anaplastic (UTC) as compared to follicular (FTC) and papillary thyroid carcinomas (PTC) or goiter tissues. ATX also enhances the motility of thyroid tumor cells. We bio-engineered stable transfectants of the human thyroid carcinoma cell line FTC-238 expressing either bioactively-secreted (sATX) or membrane-anchored ATX (mATX) to identify the biological functions of ATX which critically depend on the E-NPP member being secreted and provide insight into the effects of high local ATX concentrations and cellular responses. An increased cell motility was exclusively observed with FTC-238 sATX transfectants, whereas membrane-anchored ATX appeared to impair motility. We identified IL-1beta as an upstream suppressor of ATX expression in FTC-238, ATX-mediated motility in FTC-238 and stable transfectants, with IL-1beta having the strongest motility-suppressive effect on FTC-238 sATX clones. sATX and mATX strongly increased the anchorage-independent colony formation of FTC-238 but the size and number of colonies formed in the soft agar were significantly smaller in FTC-238 mATX versus the FTC-238 sATX clones. The cancer-testis antigen BAGE was identified as a novel target gene of ATX in FTC-238. Transcript levels for BAGE were 6-fold higher in FTC-238 mATX versus sATX clones. Increased BAGE transcript levels were also detected in tissues of patients with UTC versus FTC, PTC or goiter tissues. In summary, enhanced tumor cell motility and tumorigenic capacity critically depended on sATX in thyroid carcinoma cells. Irrespective of its compartmentalization, the cancer-testis antigen BAGE was identified as a novel target gene of ATX in FTC-238 and a potential new tissue marker in UTC tissues, which we had previously shown to express high levels of ATX.

M3 - SCORING: Zeitschriftenaufsatz

VL - 19

SP - 1485

EP - 1491

JO - ONCOL REP

JF - ONCOL REP

SN - 1021-335X

IS - 6

M1 - 6

ER -