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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Our previous study has shown that
LRRC4
is a novel member of the leucine-rich repeat (LRR) superfamily and has the potential to suppress brain tumor growth. In order to further analyze the functions of
LRRC4
on the maintenance of normal function and suppression of tumorigenesis in the central nervous system, we investigated alterations in gene expression related to neurobiology by the Atlas array in two inducible dual-stable
LRRC4
-overexpressing cell lines. Seventeen of 588 genes spotted on the Atlas membrane showed altered expression levels in
LRRC4
transfected U251MG Tet-on cells, which are involved in cell proliferation and cell cycle progression, tumor invasion and metastasis, and neurotransmitter synthesis and release. In addition, cell invasion assay results showed that
LRRC4
can inhibit the U251MG cell migration. These studies represent the first cDNA array analysis of the effects of
LRRC4
on the involvement of different neurobiological genes in U251MG glioblastoma cells and provide new insights into the function of
LRRC4
in
glioma
.
...
PMID:Profiling of differentially expressed genes in LRRC4 overexpressed glioblastoma cells by cDNA array. 1621 35
We have previously reported that the
LRRC4
gene, which contains a conserved leucine-rich repeat (LRR) cassette and an immunoglobulin (Ig) IgC2 domain, is associated with
glioma
suppression both in vitro and in vivo. The present study provides evidence that the conspicuous absence of
LRRC4
in high-grade gliomas directly contributes to the increasing tumor grade. The loss of
LRRC4
in U251 cells is caused by the loss of homozygosity at chromosome 7q32-ter. It was also found that
LRRC4
requires a functional LRR cassette domain to suppress U251 cell proliferation. In the LRR cassette domain, the third LRR motif of the core LRR is found to be indispensable for the function of
LRRC4
. The inhibitory effect of
LRRC4
is accompanied by a decrease in the expression of pERK, pAkt, pNF-kappaBp65, signal transducer and activator of transcription protein-3 (STAT3), and mutant p53, and an increase in the expression of c-Jun NH2-terminal kinase (JNK)2 and p-c-Jun, suggesting that
LRRC4
plays a major role in suppressing U251 cell proliferation by regulating the extracellular signal-regulated kinase (ERK)/Akt/NF-kappaBp65, STAT3, and JNK2/c-Jun pathways. In conclusion,
LRRC4
may act as a novel candidate of tumor suppressor gene. Therefore, the loss of
LRRC4
function may be an important event in the progression of gliomas.
...
PMID:LRRC4, a putative tumor suppressor gene, requires a functional leucine-rich repeat cassette domain to inhibit proliferation of glioma cells in vitro by modulating the extracellular signal-regulated kinase/protein kinase B/nuclear factor-kappaB pathway. 1672 3
LRRC4
is not only a brain-specific gene, but it has also been identified as a tumor suppressor gene for
glioma
. Promoter methylation of
LRRC4
is frequently involved in the inactivation in
glioma
. MiRNA-mediated gene regulation has recently been demonstrated to play an important role in multiple biological processes related to cancer, including
glioma
. In this study, we demonstrated that a small regulatory microRNA, hsa-miR-381, an "oncomir", had a major role in
glioma
progression and that
LRRC4
was a target of hsa-miR-381. By regulating
LRRC4
, hsa-miR-381 increased the in vitro and in vivo proliferation of
glioma
cells, and this action was associated with decreased inhibition of MEK/ERK and AKT signaling. Conversely,
LRRC4
, as a
glioma
suppressor, inhibited the endogenous expression of hsa-miR-381 and decreased cell proliferation and tumor growth. The interaction of hsa-miR-381 and
LRRC4
is involved in the pathogenesis of
glioma
. In addition, the stable expression of hsa-miR-381 in blood provides a novel and promising diagnostic biomarker, and anti-hsa-miR-381 "antagomir" may be an ideal target for
glioma
therapy.
...
PMID:Interaction of hsa-miR-381 and glioma suppressor LRRC4 is involved in glioma growth. 2143 36
LRRC4
is a tumor suppressor of
glioma
, and it is epigenetically inactivated commonly in
glioma
. Our previous study has shown that induction of
LRRC4
expression inhibits the proliferation of
glioma
cells. However, little is known about the mechanisms underlying the action of
LRRC4
in
glioma
cells. We employed two-dimensional fluorescence differential gel electrophoresis (2-D DIGE) and MALDI -TOF/TOF-MS/MS to identify 11 differentially expressed proteins, including the significantly down-regulated STMN1 expression in the
LRRC4
-expressing U251
glioma
cells. The levels of STMN1 expression appeared to be positively associated with the pathogenic degrees of human
glioma
. Furthermore, induction of
LRRC4
over-expression inhibited the STMN1 expression and U251 cell proliferation in vitro, and the
glioma
growth in vivo. In addition, induction of
LRRC4
or knockdown of STMN1 expression induced cell cycle arrest in U251 cells, which was associated with modulating the p21, cyclin D1, and cyclin B expression, and the ERK phosphorylation, and inhibiting the CDK5 and cdc2 kinase activities, but increasing the microtubulin polymerization in U251 cells.
LRRC4
, at least partially by down-regulating the STMN1expression, acts as a major
glioma
suppressor, induces cell cycle arrest and modulates the dynamic process of microtubulin, leading to the inhibition of
glioma
cell proliferation and growth. Potentially, modulation of
LRRC4
or STMN1 expression may be useful for design of new therapies for the intervention of
glioma
.
...
PMID:LRRC4 inhibits the proliferation of human glioma cells by modulating the expression of STMN1 and microtubule polymerization. 2180 74
The research team on the National Key Scientific Program of China: "Transcriptomic regulation and molecular mechanism research of polygenic tumor at different stages" has focused on the field of transcriptomics of 4 common polygenic tumors, including nasopharyngeal carcinoma(NPC), breast cancer, colorectal cancer, and
glioma
. Extensive laboratory work has been carried out on the expression and regulation of tumor transcriptomics; identification of tumor suppressor/susceptible genes; mechanism of tumor epigenetics including miRNAs, and comparative study of specific gene/protein cluster of tumor transcriptomics and proteomics. Genes including SPLUNC1, LTF, BRD7, NOR1, BRCA1/2, PALB2, AF1Q, SOX17, NGX6, SOX7, and
LRRC4
have been identified as the key transcriptional regulation genes during the stage of tumor initiation and invasion. Accordingly,the NPC gene signal regulation network of "SPLUNC1-miR-141-target genes", the breast cancer interaction signal pathway of "miR-193b-uPA",the
glioma
signal network of "miR-381-
LRRC4
-MEK/ERK/AKT", and the miRNA-target gene network of colorectal cancer metastasis related gene NGX6 have been thoroughly elucidated. These fruitful Results imply that the changes of key molecules in crucial signal pathway will cause severe dysfunction in signal transduction and gene regulation network in polygenic tumors, indicating that in the category of pathogenesis,these tumors may further classify as the "Disease of gene signal transduction and gene regulation network disorder". The researches have laid solid foundation for revealing the molecular mechanism and transcriptomic regulation of polygenic tumors at different stages.
...
PMID:[Transcriptomic regulation and molecular mechanism of polygenic tumor at different stages]. 2187 80
Inactivated
LRRC4
has been clinically detected in gliomas, and promoter hypermethylation has been implicated as the mechanism of inactivation in some of those tumors. Our previous researches indicated that
LRRC4
is a target gene of miR-381, the interaction of miR-381 and
LRRC4
is involved in
glioma
growth. In this study, we demonstrate that
LRRC4
is a target gene of the other microRNA, miR-182. We found that the high expression of miR-182 and miR-381 in gliomas are involved in pathological malignant progression. The silencing of miR-182 and miR-381 inhibited the proliferation in vitro and growth of
glioma
cell with in vivo magnetic resonance imaging by intracranial transplanted tumor model in rats. We also demonstrated that BRD7, a transcriptional cofactor for p53, is highly expressed and negatively correlated with
LRRC4
expression in gliomas. Disturbing miR-182 and miR-381 affected transcriptional regulation of the BRD7 gene. This finding was verified by ectopic overexpression of
LRRC4
or restoration of endogenous
LRRC4
expression by treatment with the DNA demethylating agent 5-Aza-dC. Taken together, miR-182 and miR-381 may be a useful therapeutic target for treatment of
glioma
.
...
PMID:Disturbing miR-182 and -381 inhibits BRD7 transcription and glioma growth by directly targeting LRRC4. 2440 52
Pituitary adenoma results from accumulation of multiple genetic and/or epigenetic aberrations such as GNAS, MEN1, CNC, and FIPA.
LRRC4
is relatively tissue-specific expressed gene in the normal brain and downregulated expression in
glioma
(87.5%), meningioma (80.9%), and pituitary adenoma (85.5%). It has been suggested that the aberrant expression of
LRRC4
contributes to tumorigenesis in
glioma
. However, little is known yet about association between
LRRC4
and risk of pituitary adenoma. In this study, we genotyped three
LRRC4
haplotype-tagging SNPs (htSNP) by direct sequencing in case-control studies, which included 183 Han Chinese patients diagnosed with pituitary adenoma and 183 age-, gender-matched, and geographically matched Han Chinese controls. Haplotypes were reconstructed according to the genotyping data and linkage disequilibrium status of the htSNP. We observed statistically significant differences regarding the genotype TT + CT of rs6944446 in the NCA. Haplotype AC of rs3823994-rs6944446 is suggested to have a protective effect in the development of pituitary adenoma (OR 0.339; 95% CI 0.123-0.934). However, haplotype GT of rs3808058-rs6944446 (OR 1.575; 95% CI 1.048-2.368) and AGT of rs3823994-rs6944446-rs3808058 (OR 1.673; 95% CI 1.056-2.651) might be a risk factor for pituitary adenoma development. In a brief, the results support the hypothesis that polymorphisms or haplotypes in the
LRRC4
may have important research significance and could be used to predict the risk of pituitary adenoma.
...
PMID:LRRC4 haplotypes are associated with pituitary adenoma in a Chinese population. 2456 34
LRRC4
/NGL-2 (Leucine rich repeat containing 4/Netrin-G ligand-2), a relatively specific expressed gene in brain tissue, is a member of the
LRRC4
/ NGL (netrin-G ligand) family and belongs to the superfamily of LRR proteins.
LRRC4
/NGL-2 regulates neurite outgrowth and lamina-specific dendritic segmentation, suggesting that
LRRC4
/NGL-2 is important for the development of the nervous system. In addition,
LRRC4
/NGL-2 has been identified as a tumor suppressor gene. The overexpression of
LRRC4
/NGL-2 suppresses
glioma
cell growth, angiogenesis and invasion through complicated signaling regulation networks.
LRRC4
/NGL-2 also has the ability to form multiphase loops with miRNA, transcription factors and gene methylation modification; the loss of
LRRC4
/NGL-2 function may be an important event in multiple biological processes in gliomas. In summary,
LRRC4
/NGL-2 is a critical gene in the normal development and tumorigenesis of the nervous system.
...
PMID:Function and mechanism of tumor suppressor gene LRRC4/NGL-2. 2552 88
Temozolomide (TMZ) insensitivity and resistance are major causes of treatment failure and poor prognosis for GBM patients. Here, we identify
LRRC4
as a novel autophagy inhibitor that restores the sensitivity of GBMs to TMZ.
LRRC4
was associated with the DEPTOR/mTOR complex, and this interaction resulted in autophagy inhibition. Further investigation demonstrated that the PDZ binding domain of
LRRC4
binds to the PDZ domain of DEPTOR. This binding decreases the half-life of DEPTOR via ubiquitination, thus inhibiting GBM cell autophagy and increasing the TMZ treatment response of GBM. Combined
LRRC4
expression and TMZ treatment prolonged the survival of mice with tumour xenografts. Furthermore, the levels of
LRRC4
, DEPTOR and autophagy are clinically relevant for GBM, indicating that
LRRC4
is likely to have significant potential as a therapeutic marker and target for TMZ treatment in
glioma
patients.
...
PMID:Leucine-rich repeat containing 4 act as an autophagy inhibitor that restores sensitivity of glioblastoma to temozolomide. 3237 61
