Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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
Glioblastoma
(
GBM
) and lower grade gliomas (LGG) are the most common primary malignant brain tumors and are resistant to current therapies. Genomic analyses reveal that signature genetic lesions in
GBM
and LGG include copy gain and amplification of chromosome 7, amplification, mutation, and overexpression of receptor tyrosine kinases (RTK) such as EGFR, and activating mutations in components of the PI3K pathway. In
Drosophila melanogaster
, constitutive co-activation of RTK and PI3K signaling in glial progenitor cells recapitulates key features of human gliomas. Here we use this
Drosophila
glioma model to identify death-associated protein kinase (Drak), a cytoplasmic serine/threonine kinase orthologous to the human kinase
STK17A
, as a downstream effector of EGFR and PI3K signaling pathways. Drak was necessary for glial neoplasia, but not for normal glial proliferation and development, and Drak cooperated with EGFR to promote glial cell transformation. Drak phosphorylated Sqh, the
Drosophila
ortholog of nonmuscle myosin regulatory light chain (MRLC), which was necessary for transformation. Moreover, Anillin, which is a binding partner of phosphorylated Sqh, was upregulated in a Drak-dependent manner in mitotic cells and colocalized with phosphorylated Sqh in neoplastic cells undergoing mitosis and cytokinesis, consistent with their known roles in nonmuscle myosin-dependent cytokinesis. These functional relationships were conserved in human
GBM
. Our results indicate that Drak/
STK17A
, its substrate Sqh/MRLC, and the effector Anillin/ANLN regulate mitosis and cytokinesis in gliomas. This pathway may provide a new therapeutic target for gliomas.
Significance:
These findings reveal new insights into differential regulation of cell proliferation in malignant brain tumors, which will have a broader impact on research regarding mechanisms of oncogene cooperation and dependencies in cancer.
See related commentary by Lathia, p. 1036
.
...
PMID:Drak/STK17A Drives Neoplastic Glial Proliferation through Modulation of MRLC Signaling. 3087 99
While many molecular alterations in
glioblastoma
(
GBM
), the most common primary malignant brain tumor, have been defined, the intricate signaling networks associated with these alterations that represent actionable therapeutic targets are less well established. Chen and colleagues leverage a
Drosophila
GBM
model to identify a conserved signaling axis downstream of the EGFR and PI3K that involves the death-associated protein kinase (Drak), a cytoplasmic serine/threonine kinase orthologous to the human kinase
STK17A
. Functional studies revealed that targeting this signaling axis attenuated mitosis and cytokinesis, providing a new pathway for therapeutic development in
GBM
.
See related article by Chen et al., p. 1085
.
...
PMID:Drak, Drak, Goose: A New Signaling Axis in Glioblastoma. 3053 May 3
