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:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Retinoic acid (RA) can induce growth arrest and neuronal differentiation of
neuroblastoma
cells and has been used in clinic for treatment of
neuroblastoma
. It has been reported that RA induces the expression of several HOXD genes in human
neuroblastoma
cell lines, but their roles in RA action are largely unknown. The HOXD cluster contains nine genes (HOXD1, HOXD3, HOXD4, and HOXD8-13) that are positioned sequentially from 3' to 5', with HOXD1 at the 3' end and HOXD13 the 5' end. Here we show that all HOXD genes are induced by RA in the human
neuroblastoma
BE(2)-C cells, with the genes located at the 3' end being activated generally earlier than those positioned more 5' within the cluster. Individual induction of HOXD8, HOXD9, HOXD10 or HOXD12 is sufficient to induce both growth arrest and neuronal differentiation, which is associated with downregulation of cell cycle-promoting genes and upregulation of neuronal differentiation genes. However, induction of other HOXD genes either has no effect (HOXD1) or has partial effects (HOXD3, HOXD4,
HOXD11
and HOXD13) on BE(2)-C cell proliferation or differentiation. We further show that knockdown of HOXD8 expression, but not that of HOXD9 expression, significantly inhibits the differentiation-inducing activity of RA. HOXD8 directly activates the transcription of HOXC9, a key effector of RA action in
neuroblastoma
cells. These findings highlight the distinct functions of HOXD genes in RA induction of
neuroblastoma
cell differentiation.
...
PMID:Functional dissection of HOXD cluster genes in regulation of neuroblastoma cell proliferation and differentiation. 2287 80
This study intended to gain new insight into the genetic basis underlying ganglioneuroma (GN), ganglioneuroblastoma (GNB), and
neuroblastoma
(NB). Three fresh-frozen surgically resected tumor tissues (GN1, GNB1, and NB1) and matched blood samples (GN2, GNB2, and NB2) were respectively obtained from three pediatric patients with GN, GNB, and NB. After exome sequencing, we predicted the somatic single nucleotide variants (SNV) and insertion and deletion (InDel), and screened the predisposing genes. Finally, we detected and filtered the fusion gene using Fusionmap. Exome sequencing identified 815, 985, and 884 somatic SNV, and 56, 43, and 34 InDel for GN, NB, and GNB respectively. Total 29, 19 and 37 predisposing genes were identified from GN, GNB and NB samples, such as
PIK3CA
(GN),
MUC4
(GN),
PML
(NB),
TFR2
(GNB), and
MAX
(GNB). Additionally, four common fusion genes, such as
HOXD11
-AGAP3
and
SAMD1-CDC42EP5,
were identified from three tumor samples. Moreover,
SAMD1-CDC42EP5
was also a common fusion position in three blood samples. These previously unrecognized predisposing genes, such as
PIK3CA, MUC4, PML, TFR2
and
MAX,
and fusion genes, like
HOXD11
-AGAP3,
and
SAMD1-CDC42EP5
may have the potential to impact the progression and development of neuroblastic tumors.
...
PMID:Exome sequencing identifies predisposing and fusion gene in ganglioneuroma, ganglioneuroblastoma and neuroblastoma. 3169 11
