Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
The combination of proteomic and transcriptomic analysis as well as functional assays revealed several new KLK14 substrates (agrin, desmoglein 2, vitronectin, laminins) and KLK14-regulated genes (Interleukin 32, midkine, SRY-Box 9), particularly an involvement of the mitogen-activated protein kinase 1 and interleukin 1 receptor pathways, and an involvement of KLK14 in the regulation of cellular migration, supporting its involvement in aggressive features of PCa progression.
|
31630475 |
2020 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Our findings indicate that loss of function of DUSP22 in PCa cells leads to aberrant activation of both EGFR-ERKs and AR signaling and ultimately progression of PCa, supporting the potential for novel therapeutic design of harnessing DUSP22 in the treatment of PCa.-Lin, H.-P., Ho, H.-M., Chang, C.-W., Yeh, S.-D., Su, Y.-W., Tan, T.-H., Lin, W.-J.
|
31693867 |
2019 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
The ERK2/LIFR/AKT axis modulates PCa progression and offers a promising therapeutic and diagnostic target for PCa.
|
30851421 |
2019 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Preclinical studies revealed remarkable efficacies of MAPK/ERK inhibitors in suppressing enzalutamide-resistant prostate cancer.
|
30952632 |
2019 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
Knockdown of COPS3 inhibited the progress of PCa through reducing the levels of phosphorylated P38 MAPK and impaired the epithelial-mesenchymal transition process.
|
31509289 |
2019 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Attenuation of MAPK1 inhibited in vitro and in vivo tumorigenicity and metastasis in PCa cell line, PC3.
|
30078000 |
2018 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Midkine downregulation increases the efficacy of quercetin on prostate cancer stem cell survival and migration through PI3K/AKT and MAPK/ERK pathway.
|
30142541 |
2018 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
Downregulation of lncRNA PVT1 expression inhibits proliferation and migration by regulating p38 expression in prostate cancer.
|
30250582 |
2018 |
Prostate carcinoma
|
0.100 |
PosttranslationalModification
|
disease |
BEFREE |
CD44 collaborates with ERBB2 mediate radiation resistance via p38 phosphorylation and DNA homologous recombination pathway in prostate cancer.
|
29894706 |
2018 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
We have found that the nuclear ERK-selective phosphatase DUSP5 is downregulated in colorectal tumours and cell lines, as previously observed in gastric and prostate cancer.
|
29379130 |
2018 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
Rescue experiments also demonstrated that restored MAPK1 expression reversed the tumor-suppressing effects of miR-212 on PCa cell proliferation, invasion, and apoptosis.
|
29321092 |
2018 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Meanwhile, we demonstrate that p38 MAPK pathway is involved in PAC-320 induced antiproliferative activities in prostate cancer.
|
29416632 |
2018 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
Similarly, the serum level of p40 was much greater in patients with prostate cancer than in healthy control subjects.
|
29073075 |
2017 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
<b>Conclusion:</b> These data suggest that exenatide and liraglutide attenuate prostate cancer growth through regulating P38 pathway by binding with GLP-1R.
|
28008585 |
2017 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
FOXO3a Expression Regulated by ERK Signaling is Inversely Correlated With Y-Box Binding Protein-1 Expression in Prostate Cancer.
|
27699813 |
2017 |
Prostate carcinoma
|
0.100 |
GeneticVariation
|
disease |
BEFREE |
Together, we have identified an association of genetic variants and genes in the RTK/ERK pathway with prostate cancer aggressiveness, and highlighted the potential importance of CCND2 in prostate cancer susceptibility and tumor progression to metastasis.
|
28674394 |
2017 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
With inhibition of p38, ERK, and JNK, the TSP-2-induced cell migration and MMP-2 expression were abolished, indicating that the TSP-2's effect on PCa is MAPK dependent.
|
28122633 |
2017 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
The chrysin-mediated intracellular signaling pathways suppressed phosphoinositide 3-kinase (PI3K) and the abundance of AKT, P70S6K, S6, and P90RSK proteins, but stimulated mitogen-activated protein kinases (MAPK) and activation of ERK1/2 and P38 proteins in the prostate cancer cells.
|
28213961 |
2017 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
We further demonstrate that MEK/ERK and PI3K-C2β are required for PCa cell invasion but not proliferation.
|
26983806 |
2016 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
MiR-378 suppresses prostate cancer cell growth through downregulation of MAPK1 in vitro and in vivo.
|
26346167 |
2016 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Function of E2F5 and p38 in prostate cancer was investigated using siRNA-treatment of PC3 cell-line followed by analyses of associated components and cell cycle.
|
26919443 |
2016 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
These results reveal that p38 MAPK regulates DKK-1 in prostate cancer and may present a potential target in osteolytic prostate cancers.
|
26913608 |
2016 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
Overexpression of lncRNA-ATB exerts mitogenic and EMT effects of prostate cancer via activation of ERK and PI3K/AKT signaling pathways.
|
27176634 |
2016 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
Finally, the results demonstrated that AQP3 upregulated matrix metalloproteinase‑3 (MMP‑3) expression and secretion in prostate cancer cells via activation of the ERK pathway.
|
25515250 |
2015 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
MEK/ERK inhibitors are also in clinical trials and the importance of pRB inactivation in prostate cancer is becoming more widely recognized.
|
25070358 |
2014 |