Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
These NEPC tumors, associated with aggressive disease and poor prognosis, are driven, in part, by aberrant expression of N-Myc, through mechanisms that remain unclear.
|
31260412 |
2019 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
N-Myc promotes therapeutic resistance development of neuroendocrine prostate cancer by differentially regulating miR-421/ATM pathway.
|
30657058 |
2019 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Correction to: N-Myc promotes therapeutic resistance development of neuroendocrine prostate cancer by differentially regulating miR-421/ ATM pathway.
|
31217018 |
2019 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
In addition, the interaction between Akt and SIRT1 is independent of N-Myc and can drive the development of neuroendocrine prostate cancer when N-Myc is blocked.
|
29416748 |
2018 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
Here, we provide an overview of the transcription factors that are important in normal prostate homeostasis (NKX3-1, p63, androgen receptor [AR]), primary prostate cancer (ETS family members, c-MYC), castration-resistant prostate cancer (AR, FOXA1), and AR-independent castration-resistant neuroendocrine prostate cancer (RB1, p53, N-MYC).
|
29530947 |
2018 |
Prostate carcinoma
|
0.100 |
GeneticVariation
|
disease |
BEFREE |
The gain of MYCN and AURKA oncogenes, along with the loss of tumor suppressor genes TP53 and RB1 are key genomic alterations associated with treatment-related neuroendocrine prostate cancer.
|
29396873 |
2018 |
Prostate carcinoma
|
0.100 |
AlteredExpression
|
disease |
BEFREE |
Integrating a genetically engineered mouse model and human prostate cancer transcriptome data, we show that N-Myc overexpression leads to the development of poorly differentiated, invasive prostate cancer that is molecularly similar to human NEPC.
|
27728805 |
2016 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
MYCN Transforms Prostate Epithelium to Neuroendocrine Prostate Cancer.
|
27080339 |
2016 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
N-Myc Drives Neuroendocrine Prostate Cancer Initiated from Human Prostate Epithelial Cells.
|
27050099 |
2016 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
This has important implications for the clinical management of neuroendocrine prostate cancer as Aurora A kinase inhibitors promoting N-Myc destabilization progress in the clinic.
|
27070695 |
2016 |
Prostate carcinoma
|
0.100 |
GeneticVariation
|
disease |
BEFREE |
We found that PSMD7 rs2387084 and MYCN rs1429409 were significantly related to earlier onset of prostate cancer and advanced clinical stage, respectively.
|
23920401 |
2013 |
Prostate carcinoma
|
0.100 |
GeneticVariation
|
disease |
BEFREE |
Concurrent AURKA and MYCN gene amplifications are harbingers of lethal treatment-related neuroendocrine prostate cancer.
|
23358695 |
2013 |
Prostate carcinoma
|
0.100 |
Biomarker
|
disease |
BEFREE |
ERBB2 and NMYC amplifications were never detected at any stage of prostate cancer progression.
|
10029066 |
1999 |