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:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neuroblastoma
(NB) is the most common extracranial malignant tumor of childhood and is characterized by a broad heterogeneity in clinical presentation and evolution. Recent advances in pangenomic analysis of NB have revealed different recurrent chromosomal aberrations. Indeed, it is now well established that the overall genomic profile is important for treatment stratification. In previous studies, 11 genes were shown to be recurrently amplified (ODC1, ALK, GREB1, NTSR2, LIN28B,
MDM2
, CDK4, MYEOV, CCND1, TERT, and MYC) besides MYCN, with poor survival of NB patients harboring these amplifications being suggested. Genomic profiles of 628 NB samples analyzed by array-comparative genome hybridization (a-CGH) were re-examined to identify gene amplifications other them MYCN amplification. Clinical data were retrospectively collected. We additionally evaluated the association of FRS2 gene expression with NB patient outcome using the public R2 Platform. We found eight NB samples with high grade amplification of one or two loci on chromosome arm 12q. The regional amplifications were located on bands 12q13.3-q14.1 and 12q15-q21.1 involving the genes CDK4,
MDM2
, and the potential oncogenic gene FRS2. The CDK4,
MDM2
, and FRS2 loci were coamplified in 8/8 samples. The 12q amplifications were associated with very poor prognosis and atypical clinical features of NB patients. Further functional and clinical investigations are needed to confirm or refute these associations.
...
PMID:Genomic coamplification of CDK4/MDM2/FRS2 is associated with very poor prognosis and atypical clinical features in neuroblastoma patients. 3175 73
Cells are constantly exposed to DNA damaging insults. To protect the organism, cells developed a complex molecular response coordinated by P53, the master regulator of DNA repair, cell division and cell fate. DNA damage accumulation and abnormal cell fate decision may represent a pathomechanism shared by aging-associated disorders such as cancer and neurodegeneration. Here, we examined this hypothesis in the context of tauopathies, a neurodegenerative disorder group characterized by Tau protein deposition. For this, the response to an acute DNA damage was studied in
neuroblastoma
cells with depleted Tau, as a model of loss-of-function. Under these conditions, altered P53 stability and activity result in reduced cell death and increased cell senescence. This newly discovered function of Tau involves abnormal modification of P53 and its E3 ubiquitin ligase
MDM2
. Considering the medical need with vast social implications caused by neurodegeneration and cancer, our study may reform our approach to disease-modifying therapies.
...
PMID:Tau affects P53 function and cell fate during the DNA damage response. 3242 87
Checkpoint kinase 1 (CHK1) plays a key role in genome surveillance and integrity throughout the cell cycle. Selective inhibitors of CHK1 (CHK1i) are undergoing clinical evaluation for various human malignancies, including
neuroblastoma
. Recently, we reported that CHK1i, PF-477736, induced a p53-mediated DNA damage response. As a result, the cancer cells were able to repair DNA damage and became less sensitive to CHK1i. In this study, we discovered that PF-477736 increased expression of
MDM2
oncogene along with CHK1i-induced replication defects in
neuroblastoma
NB-39-nu cells. A mass spectrometry analysis of protein binding to
MDM2
in the presence of CHK1i identified the centrosome-associated family protein 131 (CEP131), which was correlated with unfavorable prognosis of
neuroblastoma
patients. We revealed that
MDM2
was associated with CEP131 protein degradation, whereas overexpression of CEP131 accelerated
neuroblastoma
cell growth and exhibited resistance to CHK1i-induced replication defects. Thus, these findings may provide a future therapeutic strategy against centrosome-associated oncogenes involving CEP131 as a target in
neuroblastoma
.
...
PMID:CEP131 Abrogates CHK1 Inhibitor-Induced Replication Defects and Is Associated with Unfavorable Outcome in Neuroblastoma. 3301 50
There is an urgent need to identify novel therapies for childhood cancers.
Neuroblastoma
is the most common pediatric solid tumor, and accounts for ~15% of childhood cancer-related mortality.
Neuroblastomas
exhibit genetic, morphological and clinical heterogeneity, which limits the efficacy of existing treatment modalities. Gaining detailed knowledge of the molecular signatures and genetic variations involved in the pathogenesis of
neuroblastoma
is necessary to develop safer and more effective treatments for this devastating disease. Recent studies with advanced high-throughput "omics" techniques have revealed numerous genetic/genomic alterations and dysfunctional pathways that drive the onset, growth, progression, and resistance of
neuroblastoma
to therapy. A variety of molecular signatures are being evaluated to better understand the disease, with many of them being used as targets to develop new treatments for
neuroblastoma
patients. In this review, we have summarized the contemporary understanding of the molecular pathways and genetic aberrations, such as those in MYCN, BIRC5, PHOX2B, and LIN28B, involved in the pathogenesis of
neuroblastoma
, and provide a comprehensive overview of the molecular targeted therapies under preclinical and clinical investigations, particularly those targeting ALK signaling,
MDM2
, PI3K/Akt/mTOR and RAS-MAPK pathways, as well as epigenetic regulators. We also give insights on the use of combination therapies involving novel agents that target various pathways. Further, we discuss the future directions that would help identify novel targets and therapeutics and improve the currently available therapies, enhancing the treatment outcomes and survival of patients with
neuroblastoma
.
...
PMID:Molecular targeting therapies for neuroblastoma: Progress and challenges. 3315 98
In this study, we explored whether Nutlin-3a, a well-known nontoxic small-molecule compound antagonizing the inhibitory interaction of
MDM2
with the tumor suppressor p53, may restore ligands for natural killer (NK) cell-activating receptors (NK-ARs) on
neuroblastoma
(NB) cells to enhance the NK cell-mediated killing. NB cell lines were treated with Nutlin-3a, and the expression of ligands for NKG2D and DNAM-1 NK-ARs and the NB susceptibility to NK cells were evaluated. Adoptive transfer of human NK cells in a xenograft NB-bearing NSG murine model was assessed. Two datasets of NB patients were explored to correlate p53 expression with ligand expression. Luciferase assays and chromatin immunoprecipitation (ChIP) analysis of p53 functional binding on PVR promoter were performed. Primary NB cells were also treated with Nutlin-3a, and NB spheroids obtained from one high-risk patient were assayed for NK-cell cytotoxicity. We provide evidence showing that the Nutlin-3a-dependent rescue of p53 function in NB cells resulted in: (i) increased surface expression of ligands for NK-ARs, thus rendering NB cell lines significantly more susceptible to NK cell-mediated killing; (ii) shrinkage of human NB tumor masses that correlated with overall survival upon adoptive transfer of NK cells in NB-bearing mice; (iii) increased expression of ligands in primary NB cells and boosting of NK cell-mediated disaggregation of NB spheroids. We also found that p53 was a direct transcription factor regulating the expression of PVR ligand recognized by DNAM-1. Our findings demonstrated an immunomodulatory role of Nutlin-3a, which might be prospectively employed for a novel NK cell-based immunotherapy for NB.
...
PMID:Nutlin-3a enhances natural killer cell-mediated killing of neuroblastoma by restoring p53-dependent expression of ligands for NKG2D and DNAM-1 receptors. 3330 73
<< Previous
1
2
3
4
5
6
7
8
