Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Gliosarcoma is a rare
glioblastoma
variant characterized by a biphasic tissue pattern with alternating areas that display either glial (glial fibrillary acidic protein-positive) or mesenchymal (reticulin-positive) differentiation. Previous analyses have shown identical genetic alterations in glial and mesenchymal tumor areas, suggesting that gliosarcomas are genetically monoclonal, and mesenchymal differentiation was considered to reflect the elevated genomic instability of glioblastomas. In the present study, we compared genome-wide chromosomal imbalances using array comparative genomic hybridization in glial and mesenchymal tumor areas of 13 gliosarcomas. The patterns of gain and loss were similar, except that the gain at 13q13.3-q14.1 (log(2) ratio >3.0), containing the STOML3,
FREM2
, and LHFP genes, which was restricted to the mesenchymal tumor area of a gliosarcoma. Further analyses of 64 cases of gliosarcoma using quantitative PCR showed amplification of the STOML3,
FREM2
, and LHFP genes in 14 (22%), 10 (16%), and 7 (11%) mesenchymal tumor areas, respectively, but not in glial tumor areas. Results of IHC analysis confirmed that overexpression of STOML3 and
FREM2
was more extensive in mesenchymal than in glial tumor areas. These results suggest that the mesenchymal components in a small fraction of gliosarcomas may be derived from glial cells with additional genetic alterations.
...
PMID:Amplification of the STOML3, FREM2, and LHFP genes is associated with mesenchymal differentiation in gliosarcoma. 2253 88
Glioblastoma
(GB) is the most aggressive brain malignancy. Although some potential
glioblastoma
biomarkers have already been identified, there is a lack of cell membrane-bound biomarkers capable of distinguishing brain tissue from
glioblastoma
and/or
glioblastoma
stem cells (GSC), which are responsible for the rapid post-operative tumor reoccurrence. In order to find new GB/GSC marker candidates that would be cell surface proteins (CSP), we have performed meta-analysis of genome-scale mRNA expression data from three data repositories (GEO, ArrayExpress and GLIOMASdb). The search yielded ten appropriate datasets, and three (GSE4290/GDS1962, GSE23806/GDS3885, and GLIOMASdb) were used for selection of new GB/GSC marker candidates, while the other seven (GSE4412/GDS1975, GSE4412/GDS1976, E-GEOD-52009, E-GEOD-68848, E-GEOD-16011, E-GEOD-4536, and E-GEOD-74571) were used for bioinformatic validation. The selection identified four new CSP-encoding candidate genes—
CD276
,
FREM2
,
SPRY1
, and
SLC47A1
—and the bioinformatic validation confirmed these findings. A review of the literature revealed that
CD276
is not a novel candidate, while
SLC47A1
had lower validation test scores than the other new candidates and was therefore not considered for experimental validation. This validation revealed that the expression of FREM2—but not SPRY1—is higher in
glioblastoma
cell lines when compared to non-malignant astrocytes. In addition,
FREM2
gene and protein expression levels are higher in GB stem-like cell lines than in conventional
glioblastoma
cell lines.
FREM2
is thus proposed as a novel GB biomarker and a putative biomarker of
glioblastoma
stem cells. Both
FREM2
and SPRY1 are expressed on the surface of the GB cells, while SPRY1 alone was found overexpressed in the cytosol of non-malignant astrocytes.
...
PMID:Meta-Analysis and Experimental Validation Identified FREM2 and SPRY1 as New Glioblastoma Marker Candidates. 2973 72
World Health Organization grade IV diffuse gliomas, known as glioblastomas, are the most common malignant brain tumors, and they show poor prognosis. Multimodal treatment of surgery followed by radiation and chemotherapy is not sufficient to increase patient survival, which is 12 to 18 months after diagnosis. Despite extensive research, patient life expectancy has not significantly improved over the last decade. Previously, we identified
FREM2
and
SPRY1
as genes with differential expression in
glioblastoma
cell lines compared to nonmalignant astrocytes. In addition, the
FREM2
and
SPRY1
proteins show specific localization on the surface of
glioblastoma
cells. In this study, we explored the roles of the
FREM2
and
SPRY1
genes and their proteins in
glioblastoma
pathology using human tissue samples. We used proteomic, transcriptomic, and bioinformatics approaches to detect changes at different molecular levels. We demonstrate increased
FREM2
protein expression levels in glioblastomas compared to reference samples. At the transcriptomic level, both
FREM2
and
SPRY1
show increased expression in tissue samples of different glioma grades compared to nonmalignant brain tissue. To broaden our experimental findings, we analyzed The Cancer Genome Atlas
glioblastoma
patient datasets. We discovered higher
FREM2
and
SPRY1
gene expression levels in glioblastomas compared to lower grade gliomas and reference samples. In addition, we observed that low
FREM2
expression was associated with progression of
IDH
-mutant low-grade glioma patients. Multivariate analysis showed positive association between
FREM2
and favorable prognosis of
IDH
-wild type
glioblastoma
. We conclude that
FREM2
has an important role in malignant progression of
glioblastoma
, and we suggest deeper analysis to determine its involvement in
glioblastoma
pathology.
...
PMID:High
FREM2
Gene and Protein Expression Are Associated with Favorable Prognosis of
IDH
-WT Glioblastomas. 3135 84
