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:C0699790 (
colon cancer
)
28,837
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A gene called deleted in
colon cancer
(DCC) has been identified on a region of chromosome 18, which is deleted in 70% of colorectal cancers. The DCC gene encodes a protein belonging to the immunoglobulin superfamily with similarity to the N-CAM transmembrane proteins and is a putative tumor-suppressor gene. Alternative splicing of transcripts of transmembrane proteins, including N-CAM, is known to occur, resulting in different isoforms of the protein. Using five antibodies against the DCC gene product (three monoclonal antibodies raised in our laboratory, one commercially available antibody, and a rabbit polyclonal antibody), we have demonstrated by immunostaining a
DCC protein
isoform in reticuloendothelial cells in human thymus, tonsil, and lymph node. This can be distinguished from another isoform described in normal colonic epithelium, because this latter is not demonstrable with the antibodies we have used. It could not be detected in normal colonic epithelium, polyps or colorectal carcinomas. This restrictive distribution suggests that not all DCC gene products are important in colonic cancer.
...
PMID:The distribution of the deleted in colon cancer (DCC) protein in human tissues. 758 45
Using flow cytometry and immunoprecipitation (IP), we have investigated the deleted in
colon cancer
(DCC) protein expression on the bone marrow (BM) and peripheral blood (PB) cells of 16 normal subjects, 17 myelodysplastic syndrome (MDS) patients, and 10 acute myelogenous leukemia (AML) patients. With regard to the BM mononuclear cells (BM-MNCs) of normal subjects, the
DCC protein
expression ranged from 6.6 to 57.0%. Two-color flow cytometry revealed that among the IBM-MNCs the
DCC protein
was clearly expressed on the CD14+, CD13+, and factor 8+ cells, whereas it was low on the CD19+ and CD7+ cells and did not express on the CD34+, CD8+, and the glycophorin A+ cells. Further, the
DCC protein
expression was not seen on the PB CD11b+ and CD13+ cells. The IP results revealed that the 180-kD
DCC protein
was detected on the MNCs of both the BM and PB cells by the antibodies AF5, specific for the DCC extracellular domain, and G97-449, specific for the cytoplasmic domain. In contrast, flow cytometry did not detect the
DCC protein
on any BM-MNC MDS lineages (0.1-1.5%) or on AML leukemic cells (0.1-0.9%). The IP results indicated that the AF5 antibody did not detect the
DCC protein
on BM-MNCs of three of five MDS patients and four of five AML patients; however, the G97-449 antibody detected the 180-kD
DCC protein
in two MDS patients in whom AF5 had detected greatly reduced DCC band. These findings suggest that the
DCC protein
presence appears to be associated with normal hematopoiesis, and that its absence on the surfaces of the BM-MNCs and AML cells may contribute to the MDS and AML pathogenesis.
...
PMID:DCC protein expression in hematopoietic cell populations and its relation to leukemogenesis. 860 44
The DCC (deleted in colorectal cancer) gene was originally identified as a candidate tumour suppressor gene in colon carcinogenesis on the basis of allelic losses in chromosome 18q.21 in 70% of colon cancers. Reverse transcriptase polymerase chain reaction (RT-PCR) of DCC mRNA suggests that DCC expression may also be reduced in colon cancers. We have used monoclonal antibodies generated against the DCC immunoglobulin-like domain to investigate DCC isoforms and
DCC protein
expression during
colon cancer
progression. Normal mucosa and colonic tumour specimens representative of the range of colonic tumour progression from benign adenomatous polyps to metastases were compared by Western blot analyses. We show that while M(r) 194 000 DCC is present in normal colonic mucosa and adenomatous polyps, it is also similarly expressed in colorectal carcinomas and colonic metastases in the liver. The presence of
DCC protein
is consistent with the presence of DCC mRNA transcripts in the same tissue specimens. Notably DCC was not completely lost in any colonic tumour specimens examined, even those that had progressed to metastatic cancers. Quantitation of
DCC protein
expression in tissue specimens by densitometry demonstrated that both normal and malignant specimens exhibit a wide range of
DCC protein
levels and there was no significant correlation between diminished
DCC protein
expression and
colon cancer
progression. These results demonstrate the pattern of expression of the DCC gene product in colonic tumour progression and show that absence of DCC expression is not associated with colonic tumour progression.
...
PMID:The deleted in colon cancer (DCC) gene is consistently expressed in colorectal cancers and metastases. 876
On 18q, frequently deleted in late stage colorectal cancers, a gene, Deleted in
Colon Cancer
(DCC), has been identified and postulated to play a role as a tumor suppressor gene. DCC is retained in the majority of mucinous tumors, which produce high levels of mucins, and seems to be preferentially expressed in intestinal goblet cells. To investigate whether DCC is related to mucin expression and can modulate the transformed phenotype, we introduced a full-length DCC cDNA into HT29 cells, which can be induced in vitro to express MUC2, the gene that encodes the major colonic mucin. Expression of DCC did not modulate constitutive or induced expression of MUC2, nor did DCC induce a mature goblet cell phenotype. However, HT29 clones expressing high and low levels of
DCC protein
showed a significant decrease in cell proliferation and tumorigenicity. Furthermore, increased shedding and an elevated rate of spontaneous apoptosis were associated with higher levels of expression of DCC. In summary, while restoration of DCC expression in a human colon carcinoma cell line did not influence expression of differentiation markers, DCC expression did affect the growth and tumorigenic properties of the cells suggesting that DCC can modulate the malignant phenotype of
colon cancer
.
...
PMID:Altered phenotype of HT29 colonic adenocarcinoma cells following expression of the DCC gene. 1035 3
Expressive loss of the tumor suppressor deleted in
colon cancer
(DCC) may be superior to lymph node status in predicting patient survival for intermediate stage
colon cancer
. A polymerase chain reaction (PCR)-based method for detecting DCC would be ideal as a prognostic indicator. DCC is an alternatively spliced molecule; thus, reliability of a PCR test for DCC will depend on amplifying only those regions of the molecule that are lost in the progression of
colon cancer
. For this reason, we studied a
colon cancer
cell line model at different stages of tumor progression to determine the alternative splice pattern for DCC. A commercially available
colon cancer
cell line system at different stages of tumor progression was used to identify which DCC exons are lost by western blot analysis, PCR, and RT-PCR techniques. Colon cancers express abnormal DCC transcripts. The proximal and distal exons are present (exons 2 and 28-29). Exons located in the center of the molecule are absent (6-7 and 18-23). This correlated to
DCC protein
loss in the cell lines. For clinical utility as a disease marker, exons in the middle portion of the DCC molecule that are spliced out should be utilized. Amplification of the proximal and distal regions will result in falsely concluding that DCC is present when its protein product is not expressed.
...
PMID:Human colon cancer cells deficient in DCC produce abnormal transcripts in progression of carcinogenesis. 1157 40
A gene called deleted in
colon cancer
(DCC) has been identified on a region of chromosome 18, which is deleted in 70% of colorectal cancers. The DCC gene encodes a protein belonging to the immunoglobulin superfamily with similarity to the N-CAM transmembrane proteins, and it is a putative tumor-suppressor gene. Alternative splicing of transcripts of transmembrane proteins, including N-CAM, is know to occur, resulting in different isoforms of the protein. Using a polyclonal antibody against the DCC gene product, we have demonstrated, by antigen retrieval immunostaining, the presence of a
DCC protein
isoform on the cell surface of goblet cells in the G-I tract, cytoplasm of squamous epithelium in the skin & esophagus and transitional epithelium in the urinary bladder, ductal glandular epithelium of endometrium, endocervix, prostate, gall bladder and breast, cytoplasm of neuron in the cerebral cortex and Purkinje cells in the cerebellum. In addition, we also demonstrated
DCC protein
expression in neuroendocrine cells including argentaffin cells of the stomach, small intestine, appendix and colon, C cells of thyroid gland, chromaffin cells of the adrenal gland, islets of Langerhans in the pancreas and neurons of the sympathetic ganglion. This restrictive distribution suggests the DCC gene products may be abundant expression in neuroendocrine cells of human tissue.
...
PMID:Immunohistochemical localization of deleted-in-colon-cancer (DCC) protein in human epithelial, neural, and neuro-endocrine tissues in paraffin sections with antigen retrieval. 1159 61
