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Enzyme
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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)
Human diploid fibroblasts lose the capacity to proliferate and enter a state termed replicative senescence after a finite number of cell divisions in culture. When treated with sub-lethal concentrations of
H2O2
, pre-senescent human fibroblasts enter long-term growth arrest resembling replicative senescence. To understand the molecular basis for the
H2O2
-induced growth arrest, we determined the cell cycle distribution, levels of p53
tumour suppressor
and p21 cyclin-dependent kinase inhibitor proteins, and the status of Rb phosphorylation in
H2O2
-treated cells. A 2-h pulse of
H2O2
arrested the growth of IMR-90 fetal lung fibroblasts for at least 15 days. The arrested cells showed a G1 DNA content. The level of p53 protein increased 2- to 3-fold within 1.5 h after
H2O2
exposure but returned to the control level by 48 h. The induction of p53 protein was dose dependent, beginning at 50-75 microM and reaching a maximum at 100-250 microM. The induction of p53 did not appear to correlate with the level of DNA damage as measured by the formation of 8-oxo-2'-deoxyguanosine in DNA. The level of p21 protein increased about 18 h after
H2O2
exposure and remained elevated for at least 21 days. During this period, Rb remained underphosphorylated. The induction of p53 by
H2O2
was abolished by the iron chelator deferoxamine and the protein synthesis inhibitor cycloheximide. The human papillomavirus protein E6, when introduced into the cells, abolished the induction of p53, reduced the induction of p21 to a minimal level and allowed Rb phosphorylation and entry of the cells into S-phase. The human papillomavirus protein E7 reduced the overall level of Rb and also abolished
H2O2
-induced G1 arrest. Inactivating G1 arrest by E6, E7 or both did not restore the replicative ability of
H2O2
-treated cells. Thus
H2O2
-treated cells show a transient elevation of p53, high level of p21, lack of Rb phosphorylation, G1 arrest and inability to replicate when G1 arrest is inactivated.
...
PMID:Molecular analysis of H2O2-induced senescent-like growth arrest in normal human fibroblasts: p53 and Rb control G1 arrest but not cell replication. 957 49
Reactive oxygen species are widely generated in biological systems. Consequently humans have evolved antioxidant defence systems that limit their production. Intracellular production of active oxygen species such as *OH, O2- and
H2O2
is associated with the arrest of cell proliferation. Similarly, generation of oxidative stress in response to various external stimuli has been implicated in the activation of transcription factors and to the triggering of apoptosis. Here we review how free radicals induce DNA sequence changes in the form of mutations. deletions, gene amplification and rearrangements. These alterations may result in the initiation of apoptosis signalling leading to cell death, or to the activation of several proto-oncogenes and or the inactivation of some
tumour suppressor
genes. The regulation of gene expression by means of oxidants, antioxidants and the redox state remains as a promising therapeutic approach. Several anticarcinogenic agents have been shown to inhibit reactive oxygen species production and oxidative DNA damage, inhibiting tumour promotion. In addition, recombinant vectors expressing radical-scavenging enzymes reduce apoptosis. In conclusion, oxidative stress has been implicated in both apoptosis and the pathogenesis of cancer providing contrived support for two notions: free radical reactions may be increased in malignant cells and oxidant scavenging systems may be useful in cancer therapy.
...
PMID:Role of reactive oxygen species in apoptosis: implications for cancer therapy. 1068 51
The fluoroquinolone antibiotic, lomefloxacin, is phototoxic in human skin exposed to UVA radiation, photosensitises DNA strand breaks and pyrimidine dimers in human keratinocytes in vitro, and is phototumorigenic in mouse skin. The p53
tumour suppressor
protein is activated by a variety of cellular insults including UV radiation, to become a transcription factor for downstream markers such as the cyclin-kinase inhibitor p21CIP1/WAF1 or cause caspase transactivation which cleaves poly ADP ribose polymerase (PARP) as an early step in apoptosis. We have investigated these molecular defence responses in human skin cells treated with lomefloxacin and UVA radiation in vitro. Western blots revealed that lomefloxacin photosensitised the stabilisation of p53 protein in human fibroblasts. Lomefloxacin also photosensitised p53 transcriptional activity in amelanotic melanoma cells expressing wild-type p53 and stably transfected with a construct containing a beta-galactosidase reporter gene downstream from a p53 consensus binding sequence. Neither photosensitised production of
H2O2
nor the resultant DNA strand breaks, appeared to be involved in this effect. Interestingly, p21CIP1/WAFI protein was upregulated by lomefloxacin in the dark by a p53-independent mechanism. Lomefloxacin also photosensitised the degradation of nuclear PARP, suggestive of caspase mediated, early apoptotic events.
...
PMID:The phototumorigenic fluoroquinolone, lomefloxacin, photosensitises p53 accumulation and transcriptional activity in human skin cells. 1119 49
Reactive oxygen metabolites (ROMs), such as superoxide anions (O2*-) hydrogen peroxide (
H2O2
), and hydroxyl radical (*OH), malondialdehyde (MDA) and nitric oxide (NO) are directly or indirectly involved in multistage process of carcinogenesis. They are mainly involved in DNA damage leading sometimes to mutations in
tumour suppressor
genes. They also act as initiator and/or promotor in carcinogenesis. Some of them are mutagenic in mammalian systems. O2*-,
H2O2
and *OH are reported to be involved in higher frequencies of sister chromatid exchanges (SCEs) and chromosome breaks and gaps (CBGs). MDA, a bi-product of lipid peroxidation (LPO), is said to be involved in DNA adduct formations, which are believed to be responsible for carcinogenesis. NO, on the other hand, plays a duel role in cancer. At high concentration it kills tumour cells, but at low concentration it promotes tumour growth and metastasis. It causes DNA single and double strand breaks. The metabolites of NO such as peroxynitrite (OONO-) is a potent mutagen that can induce transversion mutations. NO can stimulate O2*-/
H2O2
/*OH-induced LPO. These deleterious actions of oxidants can be countered by antioxidant defence system in humans. There are first line defense antioxidants such as superoxide dismutase (SOD), glutathione peroxidase (GPx), and catalase (CAT). SOD converts O2*- to
H2O2
, which is further converted to H2O with the help of GPx and CAT. SOD inhibits *OH production. SOD also act as antipoliferative agent, anticarcinogens, and inhibitor at initiation and promotion/transformation stage in carcinogenesis. GPx is another antioxidative enzyme which catalyses to convert
H2O2
, to H2O. The most potent enzyme is CAT. GPx and CAT are important in the inactivation of many environmental mutagens. CAT is also found to reduce the SCE levels and chromosomal aberrations. Antioxidative vitamins such as vitamin A, E, and C have a number of biological activities such as immune stimulation, inhibition of nitrosamine formation and an alteration of metabolic activations of carcinogens. They can prevent genetic changes by inhibiting DNA damage induced by the ROMs. Therefore, these antioxidants may be helpful in the treatment of human cancer. However, detailed studies are required to draw a definite conclusion.
...
PMID:Oxidants, antioxidants and carcinogenesis. 1367 23
The comet assay is a sensitive method for measuring DNA strand breaks in eukaryotic cells. After embedding in agarose, cells are lysed and electrophoresed at high pH. DNA loops containing breaks (in which supercoiling is relaxed) escape from the nucleoid comet head to form a tail. Oligonucleotide probes were designed for 5' and 3' regions of the genes for dihydrofolate reductase (DHFR) and O6-methylguanine DNA methyltransferase (MGMT), both from the Chinese hamster, and the human
tumour suppressor
p53 gene. Alternate ends were labelled with either biotin or fluorescein. These probes were hybridized to the DNA of comets from Chinese hamster ovary (CHO) cells or human lymphocytes treated with
H2O2
or photosensitizer plus light to induce oxidative damage. Amplification with Texas red- and fluorescein-tagged antibodies led, in the case of p53 in human cells, to red and green signals located in the comet tail (as well as in the head), indicating the presence of breaks in the vicinity of the gene. However, only one end of the MGMT gene appeared in the tail and almost no signals from the DHFR gene, either red or green, were in the tail of comets from CHO cells. Restriction on movement from the head to tail may result from the presence of a 'matrix-associated region' in the gene. The kinetics of repair of oxidative damage were followed; strand breaks in the p53 gene were repaired more rapidly than total DNA. Thus, fluorescent in situ hybridization in combination with the comet assay provides a powerful method for studying repair of specific genes in relation to chromatin structure.
...
PMID:DNA damage and repair measured in different genomic regions using the comet assay with fluorescent in situ hybridization. 1521 25
Programmed cell death 4 (PDCD4) is a
tumour suppressor
implicated in cancer development and progression and was recently identified as a repressor of cap-independent translation of specific genes involved in the regulation of apoptosis. We show that the RNA-binding protein HuR binds to the PDCD4 3'UTR to protect it from miR-21-induced silencing. However, following
H2O2
treatment, PDCD4 mRNA is degraded via miR-21 binding. Importantly, we identify HuR as a novel substrate of the ERK8 kinase pathway in response to
H2O2
treatment. We show that phosphorylation of HuR by ERK8 prevents it from binding to PDCD4 mRNA and allows miR-21-mediated degradation of PDCD4.
...
PMID:ERK8 is a novel HuR kinase that regulates tumour suppressor PDCD4 through a miR-21 dependent mechanism. 2659 26
