The forkhead box transcription factor A2 (FOXA2) is an important regulator in animal development and body homeostasis. However, whether FOXA2 is involved in transforming growth factor β1 (TGF-β1)-mediated epithelialto-mesenchymal transition (EMT) and tumor metastasis remains unknown. The present study showed that in human lung cancer cell lines, the abundance of FOXA2 positively correlates with epithelial phenotypes and negatively correlates with the mesenchymal phenotypes of cells, and TGF-β1 treatment decreased FOXA2 protein level. Consistently, knockdown of FOXA2 promoted EMT and invasion of lung cancer cells, whereas overexpression of FOXA2 reduced the invasion and suppressed TGF-β1-induced EMT. In addition, knockdown of FOXA2 induced slug expression, and ectopic expression of FOXA2 inhibited slug transcription. Furthermore, we identified that FOXA2 can bind to slug promoter through a conserved binding site, and that the DNA-binding region and transactivation region II of FOXA2 are required for repression of the slug promoter. These data demonstrate that FOXA2 functions as a suppressor of tumor metastasis by inhibition of EMT.
A ternary solid solution (0.935‐x)Bi0.5Na0.5TiO3–0.065BaTiO3–xSrTiO3 was designed and fabricated using a conventional fabrication process. Temperature and composition dependence of the ferroelectric, dielectric, and piezoelectric properties were systematically investigated and a schematic phase diagram was established. The SrTiO3 substitution was found to induce a transition from ferroelectric to relaxor pseudocubic phases. Around a critical composition x of 0.22, large strain response of ~0.2% (under a moderate field of 4 kV/mm) with normalized strain of 490 pm/V was obtained. The large unipolar strain response would be of great interest for environmental‐friendly “on‐off” actuators.
Altered transforming growth factor-b (TGF-b) signalling has been implicated in tumour development and progression. However, the molecular mechanism behind this alteration is poorly understood. Here we show that profilin-2 (Pfn2) increases Smad2 and Smad3 expression via an epigenetic mechanism, and that profilin-2 and Smad expression correlate with an unfavourable prognosis of lung cancer patients. Profilin-2 overexpression promotes, whereas profilin-2 knockdown drastically reduces, lung cancer growth and metastasis. We show that profilin-2 suppresses the recruitment of HDAC1 to Smad2 and Smad3 promoters by preventing nuclear translocation of HDAC1 through protein-protein interaction at the C terminus of both proteins, leading to the transcriptional activation of Smad2 and Smad3. Increased Smad2 and Smad3 expression enhances TGF-b1-induced EMT and production of the angiogenic factors VEGF and CTGF. These findings reveal a new regulatory mechanism of TGF-b1/Smad signalling, and suggest a potential molecular target for the development of anticancer drugs.
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