Mikko Mättö scite author profile

Transcriptional control by androgens via androgen receptor (AR) is strongly involved in prostate cancer development, but the critical target genes have remained elusive. We have characterized E twenty-six-like transcription factor 4 (ELK4) (also known as serum response factor accessory protein 1) as a novel AR target in human prostate cancer cells. In-silico screening identified three putative AR response elements (AREs) within À10 kb from the transcription start site of ELK4. Both ARE1 at À167/À153 and ARE2 at À481/À467 bound AR in vitro and mediated androgen induction as isolated elements in transcription assays in non-prostate cells. However, merely the ARE2 that cooperates with a proximal forkhead box A1-binding site was critical for the ARdependent activation of ELK4 promoter in prostate cancer cells. Preferential loading of holo-AR onto the ARE2 and concomitant recruitment of RNA polymerase II onto the ELK4 promoter was confirmed in prostate cancer cells by chromatin immunoprecipitation. Database searches indicated that the expression of ELK4 is markedly increased in prostate cancers relative to normal prostates. Moreover, prostate cancer tissue immunostainings showed that nuclear ELK4 levels are significantly increased in androgen-refractory prostate cancers compared to untreated tumours. Reduction of the amount of ELK4 in LNCaP cells by RNAi retarded cell growth. In conclusion, ELK4 is a direct AR target in prostate cancer cells. Androgens may thus contribute to the growth of prostate cancer via influencing ELK4 levels.

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Heparin modulates the growth and adherence and augments the growth‐inhibitory action of TNF‐α on cultured human keratinocytes

Harvima

Lappalainen

Hirvonen³

et al. 2004

J of Cellular Biochemistry

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Previous works suggest the involvement of mast cells in the epithelialization of chronic wounds. Since heparin is a major mediator stored in the secretory granules of mast cells, the purpose of this work was to elucidate the function of heparin in epithelialization using in vitro culture models. For this, low- and high-calcium media in monolayer and epithelium cultures of keratinocytes were used. Also, an assay based on keratinocyte adherence onto plastic surface was used as well. Heparin (0.02-200 microg/ml) inhibited keratinocyte growth in a non-cytotoxic and dose-dependent manner in low- and high-calcium media, Keratinocyte-SFM and DMEM, in the absence of growth factors and serum. Also, heparin inhibited the growth of keratinocyte epithelium in the presence of 10% fetal calf serum and DMEM. Instead, in the presence of Keratinocyte-SFM and growth factors, heparin at 2 microg/ml inhibited the growth by 18% but at higher heparin concentrations the inhibition was reversed to baseline. TNF-alpha is another preformed mediator in mast cell granules and it inhibited keratinocyte growth in monolayer and epithelium cultures. Interestingly, heparin at 2-20 microg/ml augmented or even potentiated this growth-inhibitory effect of TNF-alpha. The association of TNF-alpha with heparin was shown by demonstrating that TNF-alpha bound tightly to heparin-Sepharose chromatographic material. However, heparin could not augment TNF-alpha-induced cell cycle arrest at G0/G1 phase or intercellular adhesion molecule-1 expression in keratinocytes. In the cell adherence assay, heparin at 2 microg/ml inhibited significantly by 12-13% or 33% the adherence of keratinocytes onto the plastic surface coated with fibronectin or collagen, respectively, but this inhibition was reversed back to baseline at 20 or 200 microg/ml heparin. Also, heparin affected the cell membrane rather than the protein coat on the plastic surface. In conclusion, heparin not only inhibits or modulates keratinocyte growth and adherence but it also binds and potentiates the growth-inhibitory function of TNF-alpha.

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Mikko Mättö

HA14-1, a small molecule Bcl-2 antagonist, induces apoptosis and modulates action of selected anticancer drugs in follicular lymphoma B cells

The role of cell cycle on polyplex‐mediated gene transfer into a retinal pigment epithelial cell line

Flow cytometric analysis of apoptotic subpopulations with a combination of Annexin V-FITC, propidium iodide, and SYTO 17

Identification of ETS-like transcription factor 4 as a novel androgen receptor target in prostate cancer cells

Heparin modulates the growth and adherence and augments the growth‐inhibitory action of TNF‐α on cultured human keratinocytes

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