Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P43146 (
tumour suppressor
)
5,935
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Microsatellite instability has been reported in a wide variety of cancer types. Inactivation or loss of
tumour suppressor
genes has been shown to result in cell cycle deregulation and neoplastic growth. We conducted a microsatellite study using fluorescent-based DNA technology to determine whether mutations in the microsatellite sequences of the deleted in colorectal cancer (DCC) gene, a
tumour suppressor
at 18q21.1, have any pathologic correlation or prognostic significance in nephroblastomas. Normal and tumour DNA was isolated from 106 cases of nephroblastoma using the standard proteinase K digestion and
phenol
-chloroform extraction method from paraffin wax-embedded tissue. Polymerase chain reaction using three microsatellite markers; D18S21, D18S34 and D18S58, for the DCC gene were performed. The polymerase chain reaction products were analysed on the ALF Express Automated DNA sequencer. The results were correlated with age at diagnosis, preoperative chemotherapy, clinicopathological stage, histological classification and patient outcome using chi(2) test. Allelic imbalance/loss of heterozygosity appeared to be a more frequent genetic aberration than microsatellite instability with 20% of cases showing allelic imbalance/loss of heterozygosity and only 9% of cases showing microsatellite instability. Genetic aberrations were more frequent in unfavourable histology tumours compared to favourable histology tumours (P=0.012). All patients with genetic aberrations for more than one DCC marker died independent of histological classification and stage (P=0.016). There was no statistically significant difference when DCC aberrations were compared with age at diagnosis, preoperative chemotherapy and clinicopathological stage. In conclusion, this study has found that multiple aberrations involving the DCC locus may play a role in the progression of nephroblastomas, and hence confer a poorer prognosis.
...
PMID:Microsatellite analysis of the DCC gene in nephroblastomas: pathologic correlations and prognostic implications. 1463 65
Infiltrating lobular breast cancer (ILBC) is a clinically and biologically distinct tumour entity defined by a characteristic linear cord invasion pattern and inactivation of the CDH1
tumour suppressor
gene encoding for E-cadherin. ILBCs also lack beta-catenin expression and show aberrant cytoplasmic localization of the E-cadherin binding protein p120-catenin. The lack of a well-characterized ILBC cell line has hampered the functional characterization of ILBC cells in vitro. We report the establishment of a permanent ILBC cell line, named
IPH
-926, which was derived from a patient with metastatic ILBC. The DNA fingerprint of
IPH
-926 verified genetic identity with the patient and had no match among the human cell line collections of several international biological resource banks.
IPH
-926 expressed various epithelial cell markers but lacked expression of E-cadherin due to a previously unreported, homozygous CDH1 241ins4 frameshift mutation. Detection of the same CDH1 241ins4 mutation in archival tumour tissue of the corresponding primary ILBC proved the clonal origin of
IPH
-926 from this particular tumour.
IPH
-926 also lacked beta-catenin expression and showed aberrant cytoplasmic localization of p120-catenin. Array-CGH analysis of
IPH
-926 revealed a profile of genomic imbalances that included many distinct alterations previously observed in primary ILBCs. Spectral karyotyping of
IPH
-926 showed a hyperdiploid chromosome complement and numerous clonal, structural aberrations.
IPH
-926 cells were anti-cancer drug-resistant, clonogenic in soft agar, and tumourigenic in SCID mice. In xenograft tumours,
IPH
-926 cells recapitulated the linear cord invasion pattern that defines ILBCs. In summary,
IPH
-926 significantly extends the biological spectrum of the established breast cancer cell lines and will facilitate functional analyses of genuine human ILBC cells in vitro and in vivo.
...
PMID:Comprehensive genetic and functional characterization of IPH-926: a novel CDH1-null tumour cell line from human lobular breast cancer. 1919 Dec 66
