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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The DCC (deleted in colorectal cancer) gene was identified because it is affected by somatic mutations in colorectal tumors, including allelic losses in greater than 70% of cancers and localized mutations in a subset of cases. The DCC gene also may be inactivated in other tumor types, including cancers of the pancreas, stomach, breast, prostate, and brain, as well as some leukemias. We have characterized DCC complementary DNAs obtained from human fetal brain tissues and IMR32 human
neuroblastoma
cells. Based on the fetal brain complementary DNA sequence, the predicted transmembrane
DCC protein
product has 1447 amino acids. The extracellular domain of about 1100 amino acids has four immunoglobulin-like domains and six fibronectin type III-like domains; the 325-amino acid cytoplasmic domain does not show similarity to previously characterized proteins. Comparison of DCC complementary DNAs from IMR32 cells to those from fetal brain identified two potential alternative splice sites. Studies of adult mouse tissues revealed that DCC transcripts were present at very low levels in all tissues studied, and alternative splicing of DCC transcripts was seen in some tissues. Immunoblotting and immunoprecipitation studies with DCC-specific antisera identified protein species with molecular weights of approximately 175,000-190,000 in some rodent tissues and human tumor cell lines.
DCC protein
expression was highest in brain tissues and neural crest-derived cell lines and markedly reduced or absent in the majority of cancer cell lines studied. Treatment of DCC-expressing cells with tunicamycin decreased the apparent molecular weight of the immunoreactive proteins, establishing that DCC is a glycoprotein. The studies presented here demonstrate that the DCC gene encodes several related glycoprotein species that are likely to be expressed at very low levels in many normal adult tissues. Furthermore, the absence of DCC expression in some of the cancer cell lines studied may result from genetic inactivation of DCC.
...
PMID:Expression and alternative splicing of the deleted in colorectal cancer (DCC) gene in normal and malignant tissues. 804 1
Neuroblastoma
is an embryonal tumor of neural crest origin noted for its heterogeneity at the clinical, histologic, and molecular levels. The deleted in colorectal cancer (DCC) protein is an adhesion family molecule of unequivocal importance in neural development that has also been implicated in several malignancies, including
neuroblastoma
, through its apparent loss of function. Immunohistochemical assessment of the
DCC protein
was performed on a group of 49
neuroblastoma
specimens and examined in relation to important clinical, histologic, and molecular parameters. DCC expression was significantly associated with
neuroblastoma
dissemination as primary tumors from Stage 1 to 3 patients (15/20, 75%) more frequently exhibited the
DCC protein
than those from Stage 4 patients (5/13, 38%; p = 0.0415). Primary tumors were more frequently DCC-positive (20/33, 61%) as compared with metastatic deposits (3/16, 19%; p = 0.0063), and a single case of a paired primary and metastatic deposit demonstrated the apparent loss of DCC gene expression with tumor progression. The remaining five paired specimens were DCC-negative in both the primary tumor and metastatic deposit. No significant association was appreciated between DCC expression and patient age, the Shimada histologic classification, or N-Myc amplification. These results provide evidence that DCC expression may be lost in the course of metastatic spread in a subset of neuroblastomas. Moreover, DCC function is implicated in
neuroblastoma
dissemination in a manner independent of N-Myc.
...
PMID:Status of deleted in colorectal cancer gene expression correlates with neuroblastoma metastasis. 964 57
DCC, a candidate tumor suppressor gene from chromosome 18q21, is most highly expressed in the developing nervous system. In vitro studies suggest a role for DCC in neuronal differentiation, and 18q allelic loss occurs in a subset of neuroblastomas. To address the hypothesis that loss of DCC function may contribute to tumorigenesis in cells of neural origin, we utilized a combination of RNase protection, immunoblotting, and immunohistochemical approaches to characterize DCC expression in 62 primary neuroblastomas and 16
neuroblastoma
cell lines. The
DCC protein
was undetectable in 38% of the primary tumors and 56% of the cell lines. Of note, primary tumors lacking DCC expression were more likely to have been obtained from patients with disseminated or stage D disease (P = 0.01). In addition, loss of DCC expression was observed in three of six primary tumors from stage DS patients. No consistent relationship between the loss of DCC expression and N-myc amplification was observed in our studies. Our findings suggest that loss of DCC expression may contribute to the dissemination of
neuroblastoma
cells, perhaps through alterations in growth and differentiation pathways distinct from those regulated by N-myc.
...
PMID:Loss of DCC expression in neuroblastoma is associated with disease dissemination. 981 73
Netrins, a family of laminin-related secreted proteins, have critical roles in axon guidance and cell migration during development. The deleted in colorectal cancer (DCC) protein has been implicated as a netrin-1 receptor component. The expression and function of netrins in adult tissues remain unknown, and direct interaction of netrin-1 with DCC has not been demonstrated. We cloned the human netrin-1 (NTN1L) gene, mapped it to chromosome 17p12-13, and found that it encodes a 604 amino acid protein with 98% identity to mouse netrin-1 and 50% identity with the Caenorhabditis elegans UNC-6 protein. NTN1L transcripts were detected in essentially all normal adult tissues studied, and markedly reduced or absent NTN1L expression was seen in approximately 50% of brain tumors and neuroblastomas. In one
neuroblastoma
, missense mutations at highly conserved NTN1L codons were found. Netrin-1 protein could be cross-linked to
DCC protein
on the cell surface, but it did not immunoprecipitate with DCC in the absence of cross-linking and it failed to bind to a soluble fusion protein containing the entire DCC extracellular domain. Our findings demonstrating NTN1L loss of expression and mutations suggest that NTN1L alterations may contribute to the development of some cancers. Furthermore, the binding of netrin-1 to DCC appears to depend on the presence of a coreceptor or accessory proteins.
...
PMID:Netrin-1: interaction with deleted in colorectal cancer (DCC) and alterations in brain tumors and neuroblastomas. 995 Feb 16
The deleted in colorectal cancer (DCC) protein is important in the pathway guidance of cells and cell processes during neural development, and DCC has also been implicated in the aberrant cellular migrations of
neuroblastoma
dissemination. We attempted to further define
DCC protein
function by the overexpression of full-length and truncated DCC constructs in a human
neuroblastoma
cell line. Overexpression of the truncated
DCC protein
resulted in a less epithelioid morphology. This was accompanied by decreases in expression of N-cadherin and alpha- and beta-catenin by immunoblot and Northern blot analysis. Levels of desmoglein were relatively less affected, whereas endogenous
DCC protein
levels were increased in the truncated transfectants. N-cadherin immunofluorescence was consistent with the immunoblot studies and localized the protein to the cytoplasm and sites of cell-cell contact. Cell aggregation studies demonstrated diminished calcium-dependent aggregation in the truncated transfectants. In conclusion, overexpression of a truncated
DCC protein
in
neuroblastoma
cells resulted in the loss of an epithelioid morphology, diminished expression of N-cadherin and alpha- and beta-catenin, and diminished calcium-dependent cell adhesion. These studies provide the first evidence of an apparent functional link between DCC and N-cadherin/catenin-dependent cell adhesion.
...
PMID:Truncated DCC reduces N-cadherin/catenin expression and calcium-dependent cell adhesion in neuroblastoma cells. 1123 42
The deleted in colorectal carcinoma (DCC) gene is a potential tumor-suppressor gene on chromosome 18q21.3. The relatively high frequency of loss of heterozygosity (LOH) and loss of expression of this gene in
neuroblastoma
, especially in the advanced stages, imply the possibility of involvement of the DCC gene in progression of
neuroblastoma
. However, only few typical mutations have been identified in this gene, indicating that other possible mechanisms for the inactivation of this gene may exist. A polymorphic change (Arg to Gly) at DCC codon 201 is related to advanced colorectal carcinoma and increases in the tumors with absent
DCC protein
expression. In order to understand whether this change is associated with the development or progression of
neuroblastoma
, we investigated codon 201 polymorphism of the DCC gene in 102 primary neuroblastomas by polymerase chain reaction single-strand conformation polymorphism. We found no missense or nonsense mutations, but a polymorphic change from CGA (Arg) to GGA (Gly) at codon 201 resulting in three types of polymorphism: codon 201(Gly) type, codon 201(Arg/Gly) type, and codon 201(Arg) type. The codon 201(Gly) type occurred more frequently in disseminated (stages IV and IVs) neuroblastomas (72%) than in localized (stages I, II, and III) tumors (48%) (P=.035), and normal controls (38%) (P=.024). In addition, the codon 201(Gly) type was significantly more common in tumors found clinically (65%) than in those found by mass screening (35%) (P=.002). The results suggested that the codon 201(Gly) type of the DCC gene might be associated with a higher risk of disseminating
neuroblastoma
.
...
PMID:Codon 201(Gly) polymorphic type of the DCC gene is related to disseminated neuroblastoma. 1157 26
