Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
Disease
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Testicular germ cell cancers remain one of the few solid tumors routinely cured in advanced stages with conventional cisplatin-based chemotherapy. The mechanisms remain largely unknown. Through use of gene-expression array profiling we define immediate transcriptional targets in response to cisplatin in testicular germ cell-derived human embryonal carcinoma cells. We report 46 genes upregulated and five genes repressed by cisplatin. Several of these gene products, including FAS, TRAILR3, PHLDA3, LRDD, and IER3 are previously implicated in the apoptotic death receptor pathway, while others including SESN1, FDXR, PLK3, and DDIT4 are known mediators of reactive oxygen species generation. Approximately 54% of the upregulated genes are established or suspected downstream targets of
p53
. Specific siRNA to
p53
prevents cisplatin-mediated activation of
p53
and
p53
pathway genes and renders embryonal carcinoma cells relatively resistant to cisplatin cytotoxicity. Interestingly, in
p53
knockdown cells nearly the entire set of identified cisplatin targets fail to respond or have a diminished response to cisplatin, suggesting that many are new direct or indirect targets of
p53
including GPR87,
STK17A
, INPP5D, FLJ11259, and EPS8L2. The data indicate that robust transcriptional activation of
p53
is linked to the known hypersensitivity of testicular germ cell tumors to chemotherapy. Many of the gene products may participate in the unique curability of this disease.
...
PMID:A p53-dominant transcriptional response to cisplatin in testicular germ cell tumor-derived human embryonal carcinoma. 1594 Feb 59
Testicular cancer is highly curable with cisplatin-based therapy, and testicular cancer-derived human embryonal carcinoma (EC) cells undergo a
p53
-dominant transcriptional response to cisplatin. In this study, we have discovered that a poorly characterized member of the death-associated protein family of serine/threonine kinases,
STK17A
(also called DRAK1), is a novel p53 target gene. Cisplatin-mediated induction of
STK17A
in the EC cell line NT2/D1 was prevented with
p53
siRNA. Furthermore,
STK17A
was induced with cisplatin in HCT116 and MCF10A cells but to a much lesser extent in isogenic
p53
-suppressed cells. A functional
p53
response element that binds endogenous
p53
in a cisplatin-dependent manner was identified 5 kb upstream of the first coding exon of
STK17A
.
STK17A
is not present in the mouse genome, but the closely related gene STK17B is induced with cisplatin in mouse NIH3T3 cells, although this induction is
p53
-independent. Interestingly, in human cells containing both
STK17A
and STK17B, only
STK17A
is induced with cisplatin. Knockdown of
STK17A
conferred resistance to cisplatin-induced growth suppression and apoptotic cell death in EC cells. This was associated with the up-regulation of detoxifying and antioxidant genes, including metallothioneins MT1H, MT1M, and MT1X that have previously been implicated in cisplatin resistance. In addition, knockdown of
STK17A
resulted in decreased cellular reactive oxygen species, whereas
STK17A
overexpression increased reactive oxygen species. In summary, we have identified
STK17A
as a novel direct target of
p53
and a modulator of cisplatin toxicity and reactive oxygen species in testicular cancer cells.
...
PMID:Serine/threonine kinase 17A is a novel p53 target gene and modulator of cisplatin toxicity and reactive oxygen species in testicular cancer cells. 2148 89
STK17A
is a relatively uncharacterized member of the death-associated protein family of serine/threonine kinases which have previously been associated with cell death and apoptosis. Our prior work established that
STK17A
is a novel p53 target gene that is induced by a variety of DNA damaging agents in a
p53
-dependent manner. In this study we have uncovered an additional, unanticipated role for
STK17A
as a candidate promoter of cell proliferation and survival in glioblastoma (GBM). Unexpectedly, it was found that
STK17A
is highly overexpressed in a grade-dependent manner in gliomas compared to normal brain and other cancer cell types with the highest level of expression in GBM. Knockdown of
STK17A
in GBM cells results in a dramatic alteration in cell shape that is associated with decreased proliferation, clonogenicity, migration, invasion and anchorage independent colony formation.
STK17A
knockdown also sensitizes GBM cells to genotoxic stress.
STK17A
overexpression is associated with a significant survival disadvantage among patients with glioma which is independent of age, molecular phenotype, IDH1 mutation, PTEN loss, and alterations in the
p53
pathway and partially independent of grade. In summary, we demonstrate that
STK17A
provides a proliferative and survival advantage to GBM cells and is a potential target to be exploited therapeutically in patients with glioma.
...
PMID:Serine/threonine kinase 17A is a novel candidate for therapeutic targeting in glioblastoma. 2431 60
