Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Studies of gene rearrangements and the consequent oncogenic fusion proteins have laid the foundation for targeted cancer therapy. To identify oncogenic fusions associated with
glioma
progression, we catalogued fusion transcripts by RNA-seq of 272 gliomas. Fusion transcripts were more frequently found in high-grade gliomas, in the classical subtype of gliomas, and in gliomas treated with radiation/temozolomide. Sixty-seven in-frame fusion transcripts were identified, including three recurrent fusion transcripts: FGFR3-TACC3, RNF213-SLC26A11, and PTPRZ1-MET (ZM). Interestingly, the ZM fusion was found only in grade III astrocytomas (1/13; 7.7%) or secondary GBMs (sGBMs, 3/20; 15.0%). In an independent cohort of sGBMs, the ZM fusion was found in three of 20 (15%) specimens. Genomic analysis revealed that the fusion arose from translocation events involving introns 3 or 8 of
PTPRZ
and intron 1 of MET. ZM fusion transcripts were found in GBMs irrespective of isocitrate dehydrogenase 1 (IDH1) mutation status. sGBMs harboring ZM fusion showed higher expression of genes required for PIK3CA signaling and lowered expression of genes that suppressed RB1 or TP53 function. Expression of the ZM fusion was mutually exclusive with EGFR overexpression in sGBMs. Exogenous expression of the ZM fusion in the U87MG glioblastoma line enhanced cell migration and invasion. Clinically, patients afflicted with ZM fusion harboring glioblastomas survived poorly relative to those afflicted with non-ZM-harboring sGBMs (P < 0.001). Our study profiles the shifting RNA landscape of gliomas during progression and reveled ZM as a novel, recurrent fusion transcript in sGBMs.
...
PMID:RNA-seq of 272 gliomas revealed a novel, recurrent PTPRZ1-MET fusion transcript in secondary glioblastomas. 2513 58
Gliomas
are primary brain tumors for which surgical resection and radiotherapy is difficult because of the diffuse infiltrative growth of the tumor into the brain parenchyma. For development of alternative, drug-based, therapies more insight in the molecular processes that steer this typical growth and morphodynamic behavior of
glioma
cells is needed. Protein tyrosine phosphatase
PTPRZ
-B is a transmembrane signaling molecule that is found to be strongly up-regulated in glioma specimens. We assessed the contribution of
PTPRZ
-B protein domains to tumor cell growth and migration, via lentiviral knock-down and over-expression using clinically relevant
glioma
xenografts and their derived cell models.
PTPRZ
-B knock-down resulted in reduced migration and proliferation of
glioma
cells in vitro and also inhibited tumor growth in vivo. Interestingly, expression of only the
PTPRZ
-B extracellular segment was sufficient to rescue the in vitro migratory phenotype that resulted from
PTPRZ
-B knock-down. In contrast,
PTPRZ
-B knock-down effects on proliferation could be reverted only after re-expression of
PTPRZ
-B variants that contained its C-terminal PDZ binding domain. Thus, distinct domains of
PTPRZ
-B are differentially required for migration and proliferation of
glioma
cells, respectively.
PTPRZ
-B signaling pathways therefore represent attractive therapeutic entry points to combat these tumors.
...
PMID:Intracellular and extracellular domains of protein tyrosine phosphatase PTPRZ-B differentially regulate glioma cell growth and motility. 2523 64
The R5 subfamily of receptor-type protein tyrosine phosphatases (RPTPs) comprises
PTPRZ
and PTPRG. A recent study on primary human glioblastomas suggested a close association between PTPRZ1 (human
PTPRZ
) expression and cancer stemness. However, the functional roles of
PTPRZ
activity in
glioma
stem cells have remained unclear. In the present study, we found that sphere-forming cells from the rat C6 and human U251 glioblastoma cell lines showed high expression levels of
PTPRZ
-B, the short receptor isoform of
PTPRZ
. Stable
PTPRZ
knockdown altered the expression levels of stem cell transcription factors such as SOX2, OLIG2, and POU3F2 and decreased the sphere-forming abilities of these cells. Suppressive effects on the cancer stem-like properties of the cells were also observed following the knockdown of PTPRG. Here, we identified NAZ2329, a cell-permeable small molecule that allosterically inhibits both
PTPRZ
and PTPRG. NAZ2329 reduced the expression of SOX2 in C6 and U251 cells and abrogated the sphere-forming abilities of these cells. Tumor growth in the C6 xenograft mouse model was significantly slower with the co-treatment of NAZ2329 with temozolomide, an alkylating agent, than with the individual treatments. These results indicate that pharmacological inhibition of R5 RPTPs is a promising strategy for the treatment of malignant gliomas.
...
PMID:Targeting PTPRZ inhibits stem cell-like properties and tumorigenicity in glioblastoma cells. 2871 88
