Abstract
Little is known about the TGF-β1 mechanism that promotes thyroid cell growth arrest. We assessed TGF-β1 effects on Fisher rat thyroid cell line (FRTL-5). This allowed us to study TGF-β1 action on thyroid cells in various physiological situations such as actively proliferating cells, resting cells stimulated to proliferate by the action of various mitogens, and resting cells. TGF-β1 arrested proliferating FRTL-5 cells, increasing c-myc mRNA levels and reducing p27-free cyclin D1 protein levels, without affecting either the cellular content of p27 or the cyclin D1-p27 complexes. Moreover, TGF-β1 treatment reduced the activity of cyclin E-CDK2 complexes and, consequently, pRB was found to be hypophosphorylated. TGF-β1 prevented resting cells to enter in the cell cycle when stimulated with growing medium (newborn calf serum plus a mixture of five hormones) but not when TSH (thyroid stimulating hormone) plus IGF-1 (Insulin-like growth factor I) were used as mitogens. Both stimuli increased the levels of cyclins D1, D3 and E but TGF-β1 had a greater effect in decreasing these cyclin levels in growing-medium stimulated cells than in TSH+IGF-1. This suggests that for FRTL-5 cells, the content of these cyclins must exceed a threshold to progress through the cell cycle. TGF-β1 induced apoptosis in quiescent cells, accompanied by a reduction in p27 protein levels and an increase in c-myc expression. Interestingly, TGF-β1-induced variations in prothymosin alpha and c-myc mRNA levels were not correlated. TGF-β1 always promoted an increase of p15 mRNA levels. In summary, our results point to the fact that TGF-β1 could play a physiological role in the control of thyroid growth through the modification of cell cycle regulatory proteins.
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Carneiro, C., Alvarez, C., Zalvide, J. et al. TGF-β1 actions on FRTL-5 cells provide a model for the physiological regulation of thyroid growth. Oncogene 16, 1455–1465 (1998). https://doi.org/10.1038/sj.onc.1201662
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DOI: https://doi.org/10.1038/sj.onc.1201662
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