Åsa Franzén scite author profile

Enhancement of tumor cell growth and invasiveness by transforming growth factor-β (TGF-β) requires constitutive activation of the ras/MAPK pathway. Here we have investigated how MEK activation by epidermal growth factor (EGF) influences the response of fully differentiated and growth-arrested pig thyroid epithelial cells in primary culture to TGF-β1. The epithelial tightness was maintained after single stimulation with EGF or TGF-β1 (both 10 ng/ml) for 48 hours. In contrast, co-stimulation abolished the transepithelial resistance and increased the paracellular flux of [3H]inulin within 24 hours. Reduced levels of the tight junction proteins claudin-1 and occludin accompanied the loss of barrier function. N-cadherin, expressed only in few cells of untreated or single-stimulated cultures, was at the same time increased 30-fold and co-localised with E-cadherin at adherens junctions in all cells. After 48 hours of co-stimulation, both E- and N-cadherin were downregulated and the cells attained a fibroblast-like morphology and formed multilayers. TGF-β1 only partially inhibited EGF-induced Erk phosphorylation. The MEK inhibitor U0126 prevented residual Erk phosphorylation and abrogated the synergistic responses to TGF-β1 and EGF. The observations indicate that concomitant growth factor-induced MEK activation is necessary for TGF-β1 to convert normal thyroid epithelial cells to a mesenchymal phenotype.

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BMP-7-Induced Cell Cycle Arrest of Anaplastic Thyroid Carcinoma Cells via p21CIP1 and p27KIP1

Franzén

Heldin

2001

Biochemical and Biophysical Research Communications

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Expression of Transforming Growth Factor- 1, Activin A, and Their Receptors in Thyroid Follicle Cells: Negative Regulation of Thyrocyte Growth and Function

Franzén

1999

Endocrinology

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Thyroid growth and function are intricately regulated by both positive and negative factors. In the present study, we have investigated the expression of transforming growth factor-beta (TGF-beta) super-family members and their receptors in normal porcine thyroid follicle cells. In tissue sections of porcine thyroids, we observed an expression of TGF-beta1, activin A, and bone morphogenetic protein (BMP)-7 proteins. The staining was localized to the follicular epithelium. In affinity cross-linking experiments, TGF-beta1 was found to bind to heteromeric complexes of TGF-beta type I and type II receptors, and activin A bound most efficiently to heteromeric complexes of activin type IB and type II receptors. We were unable to detect any BMP receptors (BMPRs) in attempts to perform affinity cross-linking with BMP-7. However, expression of BMPR-IA and BMPR-II messenger RNA (mRNA) was detected by Northern blot analysis. Both TGF-beta1 and activin A, but not BMP-7, increased the phosphorylation of Smad2, induced nuclear translocation of Smad2, Smad3, and Smad4, and inhibited thyrocyte cell growth as well as TSH-stimulated cAMP response. TGF-beta1 was more potent, compared with activin A, to induce these cellular responses. Taken together, our findings indicate a role for several members of the TGF-beta family in regulation of thyroid growth and function.

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Collagen type I expression in experimental anaplastic thyroid carcinoma: Regulation and relevance for tumorigenicity

Dahlman

Lammerts

Bergström

et al. 2001

Intl Journal of Cancer

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Fibrosis in solid malignancies plays a significant role in tumor pathophysiology. Potential mechanisms for collagen type I deposition in anaplastic thyroid carcinoma (ATC) were investigated using 6 characterized ATC cell lines. Three of these cell lines, which produced collagen type I, had, as a group, a poor tumorigenicity when inoculated in athymic mice. This group of cells generated tumors in 4 of 24 injected animals (17%). Pro-␣1(I) collagen mRNA-expressing carcinoma and stromal cells were interdispersed in the tumors generated by these ATC cells. By contrast, the 3 noncollagen-producing ATC cell lines were all tumorigenic with a tumor take of 60% in the whole group. In the latter tumors, pro-␣1(I) collagen mRNA-expressing cells were confined to the stromal compartment, well delineated from carcinoma cell islets. To study the influence of ATC cells on collagen type I synthesis by fibroblasts, we used AG 1518 diploid human fibroblasts cultured on poly-(2-hydroxyethyl methacrylate) (poly[HEMA])-coated plates. This culture condition allows the study of the effect of collagen mRNA translation in the regulation of collagen type I synthesis. Conditioned media from the 6 ATC cell lines did not influence collagen synthesis. The ATC cell line KAT-4 stimulated fibroblast synthesis of collagen type I when the two cell types were cocultured on poly[HEMA]-coated substrates. Specific inhibitors of PDGF and TGF-␤ reduced the KAT 4 carcinoma cell-induced stimulation of collagen type I synthesis. Our data suggest that collagen type I production by carcinoma cells correlates negatively with tumorigenicity and that the formation of a well-defined stroma is of importance for tumor growth. Furthermore, our data suggest that tumor cells are able to stimulate collagen mRNA translation in stromal fibroblasts in direct cell-cell contact by, at least in part, transferring PDGF or TGF-␤.

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Expression of Transforming Growth Factor-β1, Activin A, and Their Receptors in Thyroid Follicle Cells: Negative Regulation of Thyrocyte Growth and Function1

Franzén

Piek

Westermark

et al. 1999

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Åsa Franzén

Transforming growth factor-β and epidermal growth factor synergistically stimulate epithelial to mesenchymal transition (EMT) through a MEK-dependent mechanism in primary cultured pig thyrocytes

BMP-7-Induced Cell Cycle Arrest of Anaplastic Thyroid Carcinoma Cells via p21CIP1 and p27KIP1

Expression of Transforming Growth Factor- 1, Activin A, and Their Receptors in Thyroid Follicle Cells: Negative Regulation of Thyrocyte Growth and Function

Collagen type I expression in experimental anaplastic thyroid carcinoma: Regulation and relevance for tumorigenicity

Expression of Transforming Growth Factor-β1, Activin A, and Their Receptors in Thyroid Follicle Cells: Negative Regulation of Thyrocyte Growth and Function1

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