Involvement of deterioration in S100C/A11-mediated pathway in resistance of human squamous cancer cell lines to TGFβ-induced growth suppression

Inhibiting NF-κB-S100A11 signaling and targeting S100A11 for anticancer effects of demethylzeylasteral in human colon cancer

Colon cancer is a common and deadly malignancy of the gastrointestinal tract. Targeting proteins that inhibit tumor proliferation could lead to innovative treatment strategies for this disease. Demethylzeylasteral, extracted naturally from Tripterygium wilfordii Hook. f., demonstrates incredible anti-colon cancer activity. However, the molecular mechanism behind this requires further investigation. This study aims to identify crucial targets and mechanisms of demethylzeylasteral in treating colon cancer, making it a promising candidate for anti-tumor therapy. Through gene knockout, overexpression techniques, and double Luciferase experiments, we confirmed that demethylzeylasteral reduces S100A11 expression in HT29 cells and in vivo tumor models to anti-colon cancer. By conducting Surface Plasmon Resonance, immunofluorescence staining, and confocal laser microscopy observations, we verified the direct interaction between demethylzeylasteral and S100A11, and explored the impact of S100A11's subcellular localization on cell proliferation. Demethylzeylasteral inhibited S100A11 expression and exhibited anti-cancer activity in both in vitro and in vivo colon cancer models. Conversely, overexpression of S100A11 hindered apoptosis induced by demethylzeylasteral. Additionally, we found that knockdown or overexpression of NF-κB respectively decreased or increased S100A11 expression, subsequently affecting cell proliferation. The dual Luciferase reporting experiment revealed that NF-κB is an upstream transcription factor regulating S100A11 expression. And Surface plasmon resonance confirmed that S100A11 can directly interact with demethylzeylasteral, this interaction limited the transport of S100A11 from the cytoplasm to nucleus, attenuation S100A11 mediated cell proliferation effect.

S100A11, a dual growth regulator of epidermal keratinocytes

S100A11, a member of the family of S100 proteins, is a dimmer, each monomer of which has two EF-hands. Expression of S100A11 is ubiquitous in various tissues at different levels, with a high expression level in the skin. We have analyzed functions of S100A11 mainly in normal human keratinocytes (NHK) as a model cell system of human epithelial cells. High Ca(2+) and transforming growth factor-β (TGF-β), two representative growth suppressors for NHK, need a common S100A11-mediated pathway in addition to unique pathways (NFAT1-mediated pathway for high Ca(2+) and Smad-mediated pathway for TGF-β) for exhibiting a growth inhibitory effect. S100A11 has another action point for growth suppression in NHK. Annexin A1 (ANXA1) complexed with S100A11 efficiently binds to and inhibits cytosolic phospholipase A2 (cPLA2), the activity of which is needed for the growth of NHK. On exposure of NHK to epidermal growth factor (EGF), ANXA1 is cleaved at 12Trp, and this truncated ANXA1 loses binding capacity to S100A11, resulting in maintenance of an active state of cPLA2. On the other hand, we found that S100A11 is actively secreted by NHK. Extracellular S100A11 acts on NHK to enhance the production of EGF family proteins, resulting in growth stimulation. These findings indicate that S100A11 plays a dual role in growth regulation, being suppressive in cells and being promotive from outside of cells.

Proteomics of Smad4 regulated transforming growth factor-beta signalling in colon cancer cells

TGF-β signalling can play a paradoxical cell type specific role in cancer progression. Smad4 is a key mediator of the TGF-β pathway, and is mutated and/or deleted in many cancers. To investigate Smad4 regulated TGF-β signalling in colon cancer we conducted an iTRAQ mass spectrometry quantitative screen using wild type SW480 (Smad4 negative) colon carcinoma cells and stably restored Smad4 positive SW480 cells. In cells possessing a restored canonical TGF-β signalling pathway, 48 h TGF-β stimulation induced the expression of 15 proteins and repressed 1 protein, while in Smad4 wild type cells, TGF-β induced 7 proteins and repressed 2 proteins. The expression of several S100 protein family members (A2, A4, A10, and A11), transgelin-2 and AKAP12, amongst others, were shown to be regulated by TGF-β in a Smad4 dependent manner. We observed that S100 A4 could be repressed by TGF-β, independently of Smad4 expression, while other Smad4 independent TGF-β responses were restricted to induction of ribosomes and cytoskeletal proteins. Our proteomic screen has identified new Smad4 dependent and independent TGF-β responses in colon carcinoma cells.