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Target Concepts:
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Query: UNIPROT:P43146 (
tumour suppressor
)
5,935
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Exposure of Jurkat T lymphocytes containing functional p53 to nanomolar concentrations of bisanthracycline WP631 resulted in arrest at the G2/M checkpoint and transient senescence-like phenotype in the presence of DNA synthesis. The cells entered crisis, became polyploid, showed aberrant mitotic figures, and died through mitotic catastrophe. Cell death was accompanied by changes in the expression profile of various oncogenes and
tumour suppressor
genes including the down-regulation of p53. The changed expression was confirmed for some of these genes using semi-quantitative RT-PCR, and the decline in p53 protein levels was established. Our results suggest that WP631 induced changes in cell cycle control pathways leading to death of Jurkat T cells through mitotic catastrophe, which occurred in the absence of
caspase-2
and caspase-3 activities, rather than apoptosis.
...
PMID:Transcriptional changes facilitate mitotic catastrophe in tumour cells that contain functional p53. 1673 36
The caspases are an evolutionarily conserved family of cysteine proteases, with essential roles in apoptosis or inflammation. Caspase-2 was the second caspase to be cloned and it resembles the prototypical nematode caspase CED-3 more closely than any other mammalian protein. An absence of
caspase-2
-specific reagents and the subtle phenotype of
caspase-2
-deficient mice have hampered definition of the physiological role of
caspase-2
and identification of factors regulating its activity. Although some data implicate
caspase-2
in apoptotic pathways, a link with apoptosis has been less firmly established for
caspase-2
than for some other caspases. Emerging evidence suggests that
caspase-2
regulates the cell cycle and may act as a
tumour suppressor
. This article critically reviews the current state of knowledge regarding the biochemistry and biology of this controversial caspase.
...
PMID:Caspase-2: controversial killer or checkpoint controller? 1947 77
Caspase-2 is ubiquitously expressed and the most evolutionarily conserved mammalian caspase. It can be activated by a range of death stimuli prior to Bax activation and the occurrence of apoptotic mitochondrial dysfunctions. Caspase-2 has also been reported to exert
tumour suppressor
function in vivo. The full length TAp73alpha isoform is found up-regulated in various tumour types, and is reported in a cell-type specific manner to repress drug-induced apoptosis. Here, we report that TAp73alpha represses
caspase-2
enzymatic activity and by this means reduce
caspase-2
induced Bax activation, loss of mitochondrial transmembrane potential and resulting apoptosis. The inhibitory effect on
caspase-2
requires the presence of the DNA binding domain and SAM domain region of TAp73alpha. In conclusion, the ability of TAp73alpha to act as an inhibitor of
caspase-2
-induced cell death together with its up-regulation in certain tumour types strengthen the potential oncogenic activities for this protein.
...
PMID:TAp73alpha protects small cell lung carcinoma cells from caspase-2 induced mitochondrial mediated apoptotic cell death. 2220 72
TRIM16 exhibits
tumour suppressor
functions by interacting with cytoplasmic vimentin and nuclear E2F1 proteins in neuroblastoma and squamous cell carcinoma cells, reducing cell migration and replication. Reduced TRIM16 expression in a range of human primary malignant tissues correlates with increased malignant potential. TRIM16 also induces apoptosis in breast and lung cancer cells, by unknown mechanisms. Here we show that overexpression of TRIM16 induces apoptosis in human breast cancer (MCF7) and neuroblastoma (BE(2)-C) cells, but not in non-malignant HEK293 cells. TRIM16 increased procaspase-2 protein levels in MCF7 and induced
caspase-2
activity in both MCF7 and BE(2)-C cells. We show that TRIM16 and
caspase-2
proteins directly interact in both MCF7 and BE(2)-C cells and co-localise in MCF7 cells. Most importantly, the induction of
caspase-2
activity is required for TRIM16 to initiate apoptosis. Our data suggest a novel mechanism by which TRIM16 can promote apoptosis by directly modulating
caspase-2
activity.
...
PMID:TRIM16 overexpression induces apoptosis through activation of caspase-2 in cancer cells. 2340 98
Ever since its discovery 20 years ago,
caspase-2
has been enigmatic and its function somewhat controversial. Although many in vitro studies suggested that
caspase-2
was important for apoptosis, demonstrating an in vivo cell death role for this caspase has been more problematic, with
caspase-2
-deficient mice showing limited, tissue-specific cell death defects. Recent results from different laboratories suggest that at least one of its physiological roles in animals is to protect against cellular stress and transformation. As such, loss of
caspase-2
augments tumorigenesis in some mouse models of cancer, assigning a
tumour suppressor
function to this enigmatic caspase. This review focuses on this seemingly non-apoptotic function of
caspase-2
as a
tumour suppressor
and reconciles some of the recent findings in the field.
...
PMID:Caspase-2 as a tumour suppressor. 2381 50
Inactivation of
tumour suppressor
genes by promoter methylation plays an important role in the initiation and progression of gastric cancer (GC). Transmembrane 106A gene (TMEM106A) encodes a novel protein of previously unknown function. This study analysed the biological functions, epigenetic changes and the clinical significance of TMEM106A in GC. Data from experiments indicate that TMEM106A is a type II membrane protein, which is localized to mitochondria and the plasma membrane. TMEM106A was down-regulated or silenced by promoter region hypermethylation in GC cell lines, but expressed in normal gastric tissues. Overexpression of TMEM106A suppressed cell growth and induced apoptosis in GC cell lines, and retarded the growth of xenografts in nude mice. These effects were associated with the activation of
caspase-2
, caspase-9, and caspase-3, cleavage of BID and inactivation of poly (ADP-ribose) polymerase (PARP). In primary GC samples, loss or reduction of TMEM106A expression was associated with promoter region hypermethylation. TMEM106A was methylated in 88.6% (93/105) of primary GC and 18.1% (2/11) in cancer adjacent normal tissue samples. Further analysis suggested that TMEM106A methylation in primary GCs was significantly correlated with smoking and tumour metastasis. In conclusion, TMEM106A is frequently methylated in human GC. The expression of TMEM106A is regulated by promoter hypermethylation. TMEM106A is a novel functional
tumour suppressor
in gastric carcinogenesis.
...
PMID:Transmembrane protein 106A is silenced by promoter region hypermethylation and suppresses gastric cancer growth by inducing apoptosis. 2497 47
