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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Upon treatment with some DNA damaging agents, human H1299 tumor-derived cells expressing inducible versions of wild-type or mutant p53 with inactive transactivation domain I (
p53
(Q22/S23)) undergo apoptosis. In cells expressing either version of
p53
, caspase 2 activation is required for release of cytochrome c and cell death. Furthermore, silencing of
PIDD
(a factor previously shown to be required for caspase 2 activation) by siRNA suppresses apoptosis by both wild-type
p53
and
p53
(Q22/S23). Despite the finding that caspase 2 is essential for DNA damage-facilitated,
p53
-mediated apoptosis, induction of wild-type
p53
(with or without DNA damage) resulted in a reduction of caspase 2 mRNA and protein levels. In this study we sought to provide a mechanism for the negative regulation of caspase 2 by
p53
as well as provide insight as to why
p53
may repress a key mediator of
p53
-dependent apoptosis. Mechanistically, we show that DNA binding and/or transactivation domains of
p53
are crucial for mediating transrepression. Further, expression of p21 (in
p53
-null cells inducibly expressing p21) is sufficient to mediate repression of caspase 2. Deletion of p21 or E2F-1 not only abrogated repression of caspase 2, but also stimulated the expression of caspase 2 above basal levels, implicating the requirement for an intact p21/Rb/E2F pathway in the downregulation of caspase 2. As this
p53
/p21-dependent repression of caspase 2 can occur in the absence of DNA damage, caspase 2 repression does not simply seem to be a consequence of the apoptotic process. Downregulation of caspase 2 levels by
p53
may help to determine cell fate by preventing cell death when unnecessary.
...
PMID:Caspase 2 is both required for p53-mediated apoptosis and downregulated by p53 in a p21-dependent manner. 1841 48
Sequence-specific binding by the human
p53
master regulator is critical to its tumor suppressor activity in response to environmental stresses.
p53
binds as a tetramer to two decameric half-sites separated by 0-13 nucleotides (nt), originally defined by the consensus RRRCWWGYYY (n = 0-13) RRRCWWGYYY. To better understand the role of sequence, organization, and level of
p53
on transactivation at target response elements (REs) by wild type (WT) and mutant p53, we deconstructed the functional
p53
canonical consensus sequence using budding yeast and human cell systems. Contrary to early reports on binding in vitro, small increases in distance between decamer half-sites greatly reduces
p53
transactivation, as demonstrated for the natural TIGER RE. This was confirmed with human cell extracts using a newly developed, semi-in vitro microsphere binding assay. These results contrast with the synergistic increase in transactivation from a pair of weak, full-site REs in the MDM2 promoter that are separated by an evolutionary conserved 17 bp spacer. Surprisingly, there can be substantial transactivation at noncanonical (1/2)-(a single decamer) and (3/4)-sites, some of which were originally classified as biologically relevant canonical consensus sequences including
PIDD
and Apaf-1.
p53
family members p63 and p73 yielded similar results. Efficient transactivation from noncanonical elements requires tetrameric
p53
, and the presence of the carboxy terminal, non-specific DNA binding domain enhanced transactivation from noncanonical sequences. Our findings demonstrate that RE sequence, organization, and level of
p53
can strongly impact
p53
-mediated transactivation, thereby changing the view of what constitutes a functional p53 target. Importantly, inclusion of (1/2)- and (3/4)-site REs greatly expands the
p53
master regulatory network.
...
PMID:Noncanonical DNA motifs as transactivation targets by wild type and mutant p53. 1871 71
Caspase-2 is unique among all the mammalian caspases in that it is the only caspase that is present constitutively in the cell nucleus, in addition to other cellular compartments. However, the functional significance of this nuclear localization is unknown. Here we show that DNA damage induced by gamma-radiation triggers the phosphorylation of nuclear caspase-2 at the S122 site within its prodomain, leading to its cleavage and activation. This phosphorylation is carried out by the nuclear serine/threonine protein kinase DNA-PKcs and promoted by the
p53
-inducible death-domain-containing protein
PIDD
within a large nuclear protein complex consisting of DNA-PKcs,
PIDD
, and caspase-2, which we have named the DNA-PKcs-PIDDosome. This phosphorylation and the catalytic activity of caspase-2 are involved in the maintenance of a G2/M DNA damage checkpoint and DNA repair mediated by the nonhomologous end-joining (NHEJ) pathway. The DNA-PKcs-PIDDosome thus represents a protein complex that impacts mammalian G2/M DNA damage checkpoint and NHEJ.
...
PMID:DNA-PKcs-PIDDosome: a nuclear caspase-2-activating complex with role in G2/M checkpoint maintenance. 2145 74
The
tumor suppressor p53
protein supports growth arrest and is able to induce apoptosis, a signaling cascade regulated by sequential activation of caspases. Mechanisms that lead from
p53
to activation of individual initiator caspases are still unclear. The present model for caspase-2 activation includes PIDDosome complex formation. However, in certain experimental models, elimination of complex constituents
PIDD
or RAIDD did not significantly influence caspase-2 activation, suggesting the existence of an alternative activation platform for caspase-2. Here we have investigated the link between
p53
and caspase-2 in further detail and report that the latter is able to utilize the CD95 DISC as an activation platform. The recruitment of caspase-8 to this complex is required for activation of caspase-2. In the experimental system used, the DISC is formed through a distinct,
p53
-dependent upregulation of CD95. Moreover, we show that caspase-2 and -8 cleave Bid, and that both act simultaneously upstream of mitochondrial cytochrome c release. Finally, a direct interaction between the two caspases and the ability of caspase-8 to cleave caspase-2 are demonstrated. Thus, the observed functional link between caspase-8 and -2 within the DISC represents an alternative mechanism to the PIDDosome for caspase-2 activation in response to DNA damage.
...
PMID:DISC-mediated activation of caspase-2 in DNA damage-induced apoptosis. 1934 32
The
p53-induced protein with a death domain
,
PIDD
, was identified as a p53 target gene whose main role is to execute apoptosis in a
p53
-dependent manner. To investigate the physiological role of
PIDD
in apoptosis, we generated
PIDD
-deficient mice. Here, we report that, although
PIDD
expression is inducible upon DNA damage,
PIDD
-deficient mice undergo apoptosis normally not only in response to DNA damage, but also in response to various
p53
-independent stress signals and to death receptor (DR) engagement. This indicates that
PIDD
is not required for DNA damage-, stress-, and DR-induced apoptosis. Also, in the absence of
PIDD
, both caspase-2 processing and activation occur in response to DNA damage. Our findings demonstrate that
PIDD
does not play an essential role for all
p53
-mediated or
p53
-independent apoptotic pathways.
...
PMID:DNA damage- and stress-induced apoptosis occurs independently of PIDD. 1957 95
Chemotherapy resistance is a major obstacle in cancer treatment, yet the mechanisms of response to specific therapies have been largely unexplored in vivo. Employing genetic, genomic, and imaging approaches, we examined the dynamics of response to a mainstay chemotherapeutic, cisplatin, in multiple mouse models of human non-small-cell lung cancer (NSCLC). We show that lung tumors initially respond to cisplatin by sensing DNA damage, undergoing cell cycle arrest, and inducing apoptosis-leading to a significant reduction in tumor burden. Importantly, we demonstrate that this response does not depend on the
tumor suppressor p53
or its transcriptional target, p21. Prolonged cisplatin treatment promotes the emergence of resistant tumors with enhanced repair capacity that are cross-resistant to platinum analogs, exhibit advanced histopathology, and possess an increased frequency of genomic alterations. Cisplatin-resistant tumors express elevated levels of multiple DNA damage repair and cell cycle arrest-related genes, including p53-inducible protein with a death domain (Pidd). We demonstrate a novel role for
PIDD
as a regulator of chemotherapy response in human lung tumor cells.
...
PMID:Chronic cisplatin treatment promotes enhanced damage repair and tumor progression in a mouse model of lung cancer. 2039 68
The oligonucleotide Dz13 is a DNA enzyme (deoxyribozyme) that cleaves c-Jun mRNA. It has efficacious effects against tumors directly, is active against tumor-induced angiogenesis, inhibits neointima formation after arterial injury, and controls inflammatory responses. The off-target effects of Dz13 may in fact be driving some of these potentially therapeutic effects, though no mechanisms have been clearly defined in target cells. To this end, we here show that when a panel of human tumor cells that naturally propagate in bone are challenged with Dz13, the tumor suppressor E2F1 is upregulated regardless of cellular
p53
status. The piddosomal components,
p53-induced protein with a death domain
and caspase-2, were translocated to the nucleus when deoxyribozymes were incubated with cells, but RIP associated Ich-1/CED homologous protein with death domain levels increased throughout the cell with either Dz13 or its scrambled control oligonucleotide. In response to Dz13-mediated cytotoxicity, cells upregulated levels of ERK, Akt, and p38. Summarily, these results suggest a cytotoxic stress (resembling DNA damage) response of tumor cells to Dz13, which induces apoptosis via the activation of inhibitor of caspase-activated deoxyribonuclease and protein kinase C delta. In vivo, in tumor-in-bone orthotopic and clinically relevant models for prostate and breast cancer metastasis, and a novel spontaneously metastasizing model for osteosarcoma (OS), Dz13 decreased growth in bone, and also metastasis for OS. This new model for OS was assessed to be clinically relevant in its expression of typical bone markers, osteopontin and osteocalcin. These results provide an off-target mechanism for Dz13 function, but this may be useful therapeutically against tumors.
...
PMID:Dz13 induces a cytotoxic stress response with upregulation of E2F1 in tumor cells metastasizing to or from bone. 2040 96
The S100B-
p53 protein
complex was discovered in C8146A malignant melanoma, but the consequences of this interaction required further study. When S100B expression was inhibited in C8146As by siRNA (siRNA(S100B)), wt
p53 mRNA
levels were unchanged, but
p53 protein
, phosphorylated
p53
, and
p53
gene products (i.e. p21 and
PIDD
) were increased. siRNA(S100B) transfections also restored
p53
-dependent apoptosis in C8146As as judged by poly(ADP-ribose) polymerase cleavage, DNA ladder formation, caspase 3 and 8 activation, and aggregation of the Fas death receptor (+UV); whereas, siRNA(S100B) had no effect in SK-MEL-28 cells containing elevated S100B and inactive
p53
(p53R145L mutant). siRNA(S100B)-mediated apoptosis was independent of the mitochondria, because no changes were observed in mitochondrial membrane potential, cytochrome c release, caspase 9 activation, or ratios of pro- and anti-apoptotic proteins (BAX, Bcl-2, and Bcl-X(L)). As expected, cells lacking S100B (LOX-IM VI) were not affected by siRNA(S100B), and introduction of S100B reduced their UV-induced apoptosis activity by 7-fold, further demonstrating that S100B inhibits apoptosis activities in
p53
-containing cells. In other wild-type
p53
cells (i.e. C8146A, UACC-2571, and UACC-62), S100B was found to contribute to cell survival after UV treatment, and for C8146As, the decrease in survival after siRNA(S100B) transfection (+UV) could be reversed by the
p53
inhibitor, pifithrin-alpha. In summary, reducing S100B expression with siRNA was sufficient to activate
p53
, its transcriptional activation activities, and
p53
-dependent apoptosis pathway(s) in melanoma involving the Fas death receptor and perhaps
PIDD
. Thus, a well known marker for malignant melanoma, S100B, likely contributes to cancer progression by down-regulating the tumor suppressor protein,
p53
.
...
PMID:The calcium-binding protein S100B down-regulates p53 and apoptosis in malignant melanoma. 2058 15
Adult T-cell leukemia/lymphoma (ATLL), an aggressive neoplasm etiologically associated with human T-lymphotropic virus type-1 (HTLV-1), is resistant to treatment. In this study, we examined the effects of a new inhibitor of deacetylase enzymes, LBH589, on ATLL cells. LBH589 effectively induced apoptosis in ATLL-related cell lines and primary ATLL cells and reduced the size of tumors inoculated in SCID mice. Analyses, including with a DNA microarray, revealed that neither death receptors nor
p53
pathways contributed to the apoptosis. Instead, LBH589 activated an intrinsic pathway through the activation of caspase-2. Furthermore, small interfering RNA experiments targeting caspase-2, caspase-9, RAIDD,
p53-induced protein with a death domain
(PIDD) and RIPK1 (RIP) indicated that activation of RAIDD is crucial and an event initiating this pathway. In addition, LBH589 caused a marked decrease in levels of factors involved in ATLL cell proliferation and invasion such as CCR4, IL-2R and HTLV-1 HBZ-SI, a spliced form of the HTLV-1 basic zipper factor HBZ. In conclusion, we showed that LBH589 is a strong inducer of apoptosis in ATLL cells and uncovered a novel apoptotic pathway initiated by activation of RAIDD.
...
PMID:LBH589, a deacetylase inhibitor, induces apoptosis in adult T-cell leukemia/lymphoma cells via activation of a novel RAIDD-caspase-2 pathway. 2124 94
PIDD1 (
P53
-induced death domain) is a pro-apoptotic gene which can be induced by
p53
. So far, three alternative splicing products of human
PIDD
gene have been identified. Here we report a new splicing variant of this gene and named it PIDD4. The coding sequence of PIDD4 contains intron 3 and a 60 bp insert at the 5' of exon 3. Each insertion has an in-frame stop codon, which makes PIDD4 get translated from exon 5 then. Therefore, PIDD4 protein lacks the 32 KD N-terminal peptide, missing the LRR domain found in the other three isoforms. In this study, we have shown that the expression of PIDD4 is also regulated by
p53
, and as PIDD2, it is not expressed in heart either. Moreover, PIDD4 is the only isoform which is expressed in skeletal muscle. This isoform mainly localizes in the cytoplasm, and produces a relatively higher proportion of
PIDD
-CC fragment. Overexpression of PIDD4 independently promotes apoptosis.
...
PMID:PIDD4, a novel PIDD isoform without the LRR domain, can independently induce cell apoptosis in cytoplasm. 2137 39
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