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Query: UNIPROT:P43146 (
tumour suppressor
)
5,935
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this study, 23 ovarian cancer cell lines were screened using array-comparative genomic hybridization (aCGH) based on large-insert clones at about 1 Mb density from throughout the genome. The most frequent recurrent changes at the level of the chromosome arm were loss of chromosome 4 or 4q, loss of 18q and gain of 20 or 20q; other recurrent changes included losses of 6q, 8p, 9p, 11p, 15q, 16q, 17p, and 22q, and gain of 7q. Losses of 4q and 18q occurred together more often than expected. Evidence was found for two types of ovarian cancer, one typically near-triploid and characterized by a generally higher frequency of chromosomal changes (especially losses of 4p, 4q, 13q, 15q, 16p, 16q, 18p and 18q), and the other typically near-diploid/tetraploid and with fewer changes overall, but with relatively high frequencies of 9p loss, 9q gain, and 20p gain. Multiple novel changes (amplifications, homozygous deletions, discrete regions of gain or loss, small overlapping regions of change and frequently changed clones) were also detected, each of which might indicate the locations of oncogenes or
tumour suppressor
loci. For example, at least two regions of amplification on chromosome 11q13, one including cyclin D1 and the other the candidate oncogene PAK1, were found. Amplification on 11q22 near the progesterone receptor gene and a cluster of matrix metalloproteinase loci was also detected. Other potential oncogenes, which mapped to regions found by this study, included cyclin E and PIK3C2G. Candidate
tumour suppressor
genes in regions of loss included CDKN2C, SMAD4-interacting protein and
RASSF2
.
...
PMID:Analysis of ovarian cancer cell lines using array-based comparative genomic hybridization. 1558 66
RASSF2
, a member of the RASSF1 family, has recently been identified as a potential
tumour suppressor
. We examined methylation status in multiple regions which included the CpG island and spanned the transcription start site of
RASSF2
in 10 gastric cancer cell lines, as well as 78 primary gastric cancers and corresponding non-neoplastic gastric epithelia. Hypermethylation of
RASSF2
in at least one of the regions examined was detected in seven (70%) of the 10 cell lines; two (20%) exhibited hypermethylation in all the regions examined including the transcription start site and lost expression of
RASSF2
mRNA, which could, however, be restored by 5-aza-2' deoxycytidine treatment, while the other five (50%) cell lines exhibited hypermethylation at the 5'- and/or 3'- edge, with four of them expressing
RASSF2
mRNA. In primary gastric cancers and corresponding non-neoplastic gastric epithelia, frequencies of
RASSF2
methylation ranged from 29% (23 out of 78) to 79% (62 out of 78) and 3% (two out of 78) to 60% (47 out of 78), respectively, at different CpG sites examined. Methylation was frequently observed at the 5'- and 3'- edges, and became less frequent near the transcription start site in both the primary gastric cancers and corresponding non-neoplastic gastric epithelia. Hypermethylation near the transcription start site was mostly cancer-specific. We thus showed that
RASSF2
is silenced by hypermethylation near the transcription start site in gastric cancer. Hypermethylation was found initially to occur at the 5'- and 3'- furthest regions of the CpG island in non-neoplastic gastric epithelia, to gradually spreads near the transcription start site to shut down
RASSF2
expression, and ultimately to constitute a field-defect placing tissue increased risk for development of gastric cancer.
...
PMID:RASSF2, a potential tumour suppressor, is silenced by CpG island hypermethylation in gastric cancer. 1626 49
RASSF2
is a recently identified member of a class of novel
tumour suppressor
genes, all containing a ras-association domain.
RASSF2
resides at 20p13, a region frequently lost in human cancers. In this report we investigated methylation status of the
RASSF2
promoter CpG island in a series of breast, ovarian and non-small cell lung cancers (NSCLC).
RASSF2
was frequently methylated in breast tumour cell lines (65%, 13/20) and in primary breast tumours (38%, 15/40).
RASSF2
expression could be switched back on in methylated breast tumour cell lines after treatment with 5'-aza-2'deoxycytidine.
RASSF2
was also frequently methylated in NSCLC tumours (44%, (22/50). The small number of corresponding normal breast and lung tissue DNA samples analysed were unmethylated. We also did not detect
RASSF2
methylation in ovarian tumours (0/17). Furthermore no mutations were found in the coding region of
RASSF2
in these ovarian tumours. We identified a highly conserved putative bipartite nuclear localization signal (NLS) and demonstrated that endogenous
RASSF2
localized to the nucleus. Mutation of the putative NLS abolished the nuclear localization.
RASSF2
suppressed breast tumour cell growth in vitro and in vivo, while the ability of NLS-mutant
RASSF2
to suppress growth was much diminished. Hence we demonstrate that
RASSF2
has a functional NLS that is important for its
tumour suppressor
gene function. Our data from this and a previous report indicate that
RASSF2
is frequently methylated in colorectal, breast and NSCLC tumours. We have identified
RASSF2
as a novel methylation marker for multiple malignancies and it has the potential to be developed into a valuable marker for screening several cancers in parallel using promoter hypermethylation profiles.
...
PMID:Epigenetic regulation of the ras effector/tumour suppressor RASSF2 in breast and lung cancer. 1789 Nov 78
RASSF2
is a
tumour suppressor
that in common with the rest of the RASSF family contains Ras association and SARAH domains. We identified the proapoptotic kinases, MST1 and MST2, as the most significant binding partners of
RASSF2
, confirmed the interactions at endogenous levels and showed that
RASSF2
immunoprecipitates active MST1/2. We then showed that
RASSF2
can be phosphorylated by a co-immunoprecipitating kinase that is likely to be MST1/2. Furthermore, we showed that
RASSF2
and MST2 do indeed colocalize, but whereas
RASSF2
alone is nuclear, the presence of MST1 or MST2 results in colocalization in the cytoplasm. Expression of
RASSF2
(stably in MCF7 or transiently in HEK-293) increases MST2 levels and knockdown of
RASSF2
in HEK-293 cells reduces MST2 levels, in addition colorectal tumour cell lines and primary tumours with low
RASSF2
levels show decreased MST2 protein levels. This is likely to be mediated by
RASSF2
-dependent protection of MST2 against proteolytic degradation. Our findings suggest that MST2 and
RASSF2
form an active complex in vivo, in which
RASSF2
is maintained in a phosphorylated state and protects MST2 from degradation and turnover. Thus, we propose that the frequent loss of
RASSF2
in tumours results in the destablization of MST2 and thus decreased apoptotic potential.
...
PMID:RASSF2 associates with and stabilizes the proapoptotic kinase MST2. 1952 78
