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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To determine how hyaluronidase increases certain cancer cell sensitivity to tumor necrosis factor (TNF) cytotoxicity, we report here the isolation and characterization of a hyaluronidase-induced murine
WW domain-containing oxidoreductase
(
WOX1
).
WOX1
is composed of two N-terminal WW domains, a nuclear localization sequence, and a C-terminal alcohol dehydrogenase (ADH) domain.
WOX1
is mainly located in the mitochondria, and the mitochondrial targeting sequence was mapped within the ADH domain. Induction of mitochondrial permeability transition by TNF, staurosporine, and atractyloside resulted in
WOX1
release from mitochondria and subsequent nuclear translocation. TNF-mediated
WOX1
nuclear translocation occurred shortly after that of nuclear factor-kappaB nuclear translocation, whereas both were independent events.
WOX1
enhanced TNF cytotoxicity in L929 cells via its WW and ADH domains as determined using stable cell transfectants. In parallel with this observation,
WOX1
also enhanced TRADD (TNF receptor-associated death domain protein)-mediated cell death in transient expression experiments. Antisense expression of
WOX1
raised TNF resistance in L929 cells. Enhancement of TNF cytotoxicity by
WOX1
is due, in part, to its significant down-regulation of the apoptosis inhibitors Bcl-2 and Bcl-x(L) (>85%), but up-regulation of pro-apoptotic
p53
( approximately 200%) by the ADH domain. When overexpressed, the ADH domain mediated apoptosis, probably due to modulation of expression of these proteins. The WW domains failed to modulate the expression of these proteins, but sensitized COS-7 cells to TNF killing and mediated apoptosis in various cancer cells independently of caspases. Transient cotransfection of cells with both
p53
and
WOX1
induced apoptosis in a synergistic manner.
WOX1
colocalizes with
p53
in the cytosol and binds to the proline-rich region of
p53
via its WW domains. Blocking of
WOX1
expression by antisense mRNA abolished
p53
apoptosis. Thus,
WOX1
is a mitochondrial apoptogenic protein and an essential partner of
p53
in cell death.
...
PMID:Hyaluronidase induction of a WW domain-containing oxidoreductase that enhances tumor necrosis factor cytotoxicity. 1105 90
Loss of heterozygosity (LOH) represents the most frequent genetic alteration observed in hepatocellular carcinoma (HCC). Chromosome 16q is of particular interest as it exhibits LOH in 29% of HCC tumors and is frequently lost in breast, prostate, ovarian and gastric carcinomas. We genotyped 157 HCC tumors for 17 microsatellite markers distributed on chromosome 16q and determined a common region of LOH localized between the markers D16S518 and D16S504. By refining the boundaries of two interstitial LOH and two homozygous deletions, the critical region was delimited to 180 kb between D16S3096 and D16S3029. This region is located in intron 8 of the
WWOX
/FOR gene, but a search for mutations in all coding exons of this gene in 27 HCC tumors and cell lines did not reveal any tumor somatic alterations. Furthermore, by RT-PCR, no abnormal transcripts of this
WWOX
/FOR gene was detected in nine HCC cell lines. Finally, analysis of the
p53
gene mutations with the clinical parameters of all tumors revealed that the two homozygous deletions have occurred in tumors presenting a R249S mutation. Our data revealed a relationship between chromosome 16q homozygous deletions and R249S
p53
mutations in tumors where the patient had been exposed to aflatoxin B1 (P=0.002). These results are consistent with a role of aflatoxin B1 in the instability of chromosome 16q at the fragile site
FRA16D
. However, the nature of the specific gene that is altered during hepatocarcinogenesis remains to be elucidated.
...
PMID:Identification of homozygous deletions at chromosome 16q23 in aflatoxin B1 exposed hepatocellular carcinoma. 1152 14
A large number of
p53
-transcribed proteins have been shown to mediate growth arrest and/or apoptosis in vitro, whereas their in vivo roles remain largely unclear.
p53
is capable of initiating apoptosis without transcription of apoptosis inducer genes, although the underlying mechanism is unknown.
p53
is present in the mitochondria and appears to contribute to the biogenesis, function and apoptosis of this organelle. We have recently cloned a
p53
-binding mitochondrial
WW domain-containing oxidoreductase
(
WOX1
). Suppression of
WOX1
expression abolishes
p53
apoptotic function, indicating that
WOX1
is a likely partner of
p53
in cell death. In this review article, the potential role of
WOX1
/
p53
as a signaling complex in the mitochondrial apoptosis is discussed.
...
PMID:A potential role of p53 and WOX1 in mitochondrial apoptosis (review). 1174 90
The presence of putative tumor-suppressor genes on chromosome 16q23.2-24.1 has been suggested by LOH analysis in several cancer types. This region overlaps with the fragile site
FRA16D
and the region of homozygous deletions found in several cancer types. The candidate gene
WWOX
/FOR has been mapped within this region. The mouse homologue of the
WWOX protein
has been defined as an apoptogenic protein and an essential partner of
p53
in cell death, supporting
WWOX
as a tumor suppressor gene candidate. We performed an expression study of the
WWOX
/FOR gene in a series of human breast tumors and breast cancer cell lines, and detected reduced expression of the
WWOX
/FOR transcript in a series of breast cancer cells. Furthermore, identification of two distinct alternative
WWOX
transcripts expressed at high levels in human tumors suggests an involvement of the
WWOX
gene in breast cancer progression.
...
PMID:Alternative transcripts of the candidate tumor suppressor gene, WWOX, are expressed at high levels in human breast tumors. 1189 15
Transient activation of c-Jun N-terminal kinase (JNK) promotes cell survival, whereas persistent JNK activation induces apoptosis. Bovine testicular hyaluronidase PH-20 activates JNK1 and protects L929 fibroblasts from staurosporine-mediated cell death. PH-20 also induces the expression of a
p53
-interacting
WW domain-containing oxidoreductase
(
WOX1
, also known as
WWOX
or FOR) in these cells.
WOX1
enhances the cytotoxic function of tumor necrosis factor and mediates apoptosis synergistically with
p53
. Thus, the activated JNK1 is likely to counteract
WOX1
in mediating apoptosis. Here it is demonstrated that ectopic JNK1 inhibited
WOX1
-mediated apoptosis of L929 fibroblasts, monocytic U937 cells, and other cell types. Also, JNK1 blocked
WOX1
prevention of cell cycle progression. By stimulating cells with anisomycin or UV light, JNK1 became activated, and
WOX1
was phosphorylated at Tyr(33). The activated JNK1 physically interacted with the phosphorylated
WOX1
, as determined by co-immunoprecipitation. Alteration of Tyr(33) to Arg(33) in
WOX1
abrogated its binding interaction with JNK1 and its activity in mediating cell death, indicating that Tyr(33) phosphorylation is needed to activate
WOX1
. A dominant negative
WOX1
was developed and shown to block
p53
-mediated apoptosis and anisomycin-mediated
WOX1
phosphorylation but could not inhibit JNK1 activation. This mutant protein bound
p53
but could not interact with JNK1, as determined in yeast two-hybrid analysis. Taken together, phosphorylation of JNK1 and
WOX1
is necessary for their physical interaction and functional antagonism.
...
PMID:JNK1 physically interacts with WW domain-containing oxidoreductase (WOX1) and inhibits WOX1-mediated apoptosis. 1251 74
Human
WWOX
gene encodes a putative tumor suppressor
WW domain-containing oxidoreductase
WOX1
(also known as
WWOX
or FOR). A high frequency of loss of heterozygosity (LOH) of this gene has been shown in prostate, lung, breast and other cancers. In addition, numerous aberrant
WWOX
mRNA transcripts have been found in cancer cells.
WOX1
is a proapoptotic protein. In response to stress or apoptotic stimuli,
WOX1
became phosphorylated at Tyr33, which enabled its complex formation with activated
p53
and JNK1. The
p53
/
WOX1
complex translocated to the mitochondria and further to the nuclei to mediate apoptosis.
WOX1
mutants, which were inactivated for nuclear translocation or Tyr33 phosphorylation, failed to induce apoptosis, indicating that activation of
WOX1
via Tyr33 phosphorylation, followed by nuclear translocation, is essential for inducing cell death.
WOX1
induced apoptosis synergistically with
p53
. In contrast, transiently activated JNK1 induced anti-apoptotic response, and this protective activity inhibited
WOX1
-induced apoptosis. Taken together,
WOX1
is involved in stress and apoptotic responses, and is likely to regulate the activation of both
p53
and JNK1.
...
PMID:Molecular mechanisms underlying WOX1 activation during apoptotic and stress responses. 1455 8
WW domain-containing oxidoreductase
WOX1
, also known as
WWOX
or FOR, is a proapoptotic protein and a putative tumor suppressor. Hyaluronidases such as PH-20, Hyal-1 and Hyal-2 induce the expression of
WOX1
, and hyaluronidases and hyaluronan are involved in the embryonic development. In the present study, we document the expression of
WOX1
in the developing murine nervous system. Immunohistochemical analysis revealed that
WOX1
was differentially expressed in early dividing cells from all three germ layers from embryonic to perinatal stages. In murine fetuses,
WOX1
was present prevalently in the brainstem, spinal cord and peripheral nerve bundles, but its expression decreased after birth. In parallel, the expression of
WOX1
, as determined by Western blotting, was significantly reduced in the brain stem and spinal cord of adult mice. Notably, high levels of
WOX1
immunoreactivity was observed in the neural crest-derived structures such as cranial and spinal ganglia and cranial mesenchyme during the late fetal stage. In the adult brain,
WOX1
is abundant in the epithelial cells of the choroids plexus and ependymal cells, while a low to moderate level of
WOX1
is observed within white matter tracts, such as axonal profiles of the corpus callosum, striatum, optic tract, and cerebral peduncle.
WOX1
is shown to mediate apoptosis synergistically with
p53
in vitro. Nonetheless, the expression profiles of
WOX1
were found to be similar in both
p53
wild type and knockout mice, suggesting that
WOX1
expression is not controlled by
p53
-mediated gene transcription. Taken together, in this study we have shown the expression and distribution of
WOX1
in developing and adult murine nervous system. The potential role of
WOX1
in the neuronal differentiation is discussed.
...
PMID:Expression of WW domain-containing oxidoreductase WOX1 in the developing murine nervous system. 1502 24
The
WWOX
gene encodes a tumor suppressor WW domain-containing protein, Wwox. Alterations of
WWOX
have been demonstrated in multiple types of cancer, and introduction of Wwox into Wwox-negative tumor cells has resulted in tumor suppression and apoptosis. The Wwox protein contains two WW domains that typically bind proline-rich motifs and mediate protein-protein interactions. Recently, we have described functional cross-talk between the Wwox protein and the
p53
homologue, p73. To further explore the biological function of Wwox, we investigated other interacting candidates. In this report, we demonstrate a physical and functional association between AP-2gamma transcription factor and the Wwox protein. AP-2gamma at 20q13.2 encodes a transcription factor and is frequently amplified in breast carcinoma. We show that Wwox binds to the PPPY motif of AP-2gamma via its first WW domain. Alterations of tyrosine 33 in the first WW domain of Wwox or the proline-rich motif in AP-2gamma dramatically reduce this interaction. In addition, our results demonstrate that Wwox expression triggers redistribution of nuclear AP-2gamma to the cytoplasm, hence suppressing its transactivating function. Our results suggest that Wwox tumor suppressor protein inhibits AP-2gamma oncogenic activity by sequestering it in the cytoplasm.
...
PMID:Physical and functional interactions between the Wwox tumor suppressor protein and the AP-2gamma transcription factor. 1554 92
Human
WWOX
gene encodes a proapoptotic
WW domain-containing oxidoreductase
WOX1
(also named
WWOX
, FOR2 or WWOXv1). Apoptotic and stress stimuli activate
WOX1
via Tyr33 phosphorylation and nuclear translocation.
WOX1
possesses a tetrad NSYK motif in the C-terminal short-chain alcohol dehydrogenase/reductase (SDR) domain, which may bind estrogen and androgen. Here, we determined that 17beta-estradiol (E(2)) activated
WOX1
,
p53
and ERK in COS7 fibroblasts, primary lung epithelial cells, and androgen receptor (AR)-negative prostate DU145 cells, but not in estrogen receptor (ER)-positive breast MCF7 cells. Androgen also activated
WOX1
in the AR-negative DU145 cells. These observations suggest that sex hormone-mediated Tyr33 phosphorylation and nuclear translocation of
WOX1
is independent of ER and AR. Stress stimuli increase physical binding of
p53
with
WOX1
in vivo. We determined here that E(2) increased the formation of
p53
/
WOX1
complex and their nuclear translocation in COS7 cells; however, nuclear translocation of this complex could not occur in MCF7 cells. By immunohistochemistry, we determined that progression of prostate from normal to hyperplasia, cancerous and metastatic stages positively correlate with upregulation and activation of
WOX1
and WOX2 (FOR1/WWOXv2). In contrast, breast cancer development to a premetastatic state is associated with upregulation and Tyr33 phosphorylation of cytosolic
WOX1
and WOX2, followed by significant downregulation or absent expression during metastasis. These Tyr33-phosphorylated proteins are mostly located in the mitochondria without translocating to the nuclei, which is comparable to those findings in cultured breast cancer cells. Together, sex steroid hormone-induced activation of
WOX1
and WOX2 is independent of ER and AR, and this activation positively correlates with cancerous progression of prostate and breast to a premetastatic state.
...
PMID:17beta-Estradiol upregulates and activates WOX1/WWOXv1 and WOX2/WWOXv2 in vitro: potential role in cancerous progression of breast and prostate to a premetastatic state in vivo. 1558 Mar 10
Neither the molecular basis for common fragile site DNA instability nor the contribution of this form of chromosomal instability to cancer is clearly understood. Fragile site
FRA16D
(16q23.2) is within regions of frequent loss-of-heterozygosity (LOH) in breast and prostate cancers, is associated with homozygous deletions in various adenocarcinomas and t(14;16) chromosomal translocations in multiple myeloma. The FOR (
WWOX
) gene spans
FRA16D
and encodes a partner of
p53
that also has a role in apoptosis. Previously untested 53 cancer cell lines were screened for deletions within the FOR/
WWOX
gene. Deletions were detected in Co115, KM12C and KM12SM. Homozygous deletions in these and two previously identified tumour cell lines were intragenic on both alleles, indicating a distinct mutation mechanism from that causing LOH. Identical
FRA16D
deletions in two cell lines (one derived from the primary carcinoma and the other from a secondary metastasis) demonstrate that
FRA16D
DNA instability can be an early, transient event. Sequence analysis across one deletion locates one endpoint within a polymorphic AT-dinucleotide repeat and the other adjacent to an AT-rich mini-satellite repeat implicating AT-rich repeats in
FRA16D
DNA instability. Another deletion is associated with de novo repetition of the 9 bp AT-rich sequence at one of the deletion endpoints.
FRA16D
deleted cells retain cytogenetic fragile site expression indicating that the deletions are susceptible sites for breakage rather than regions that confer fragility. Most cell lines with
FRA16D
homozygous deletions also have FRA3B deletions, therefore common fragile sites represent highly susceptible genome-wide targets for a distinct form of mutation.
...
PMID:Common chromosomal fragile site FRA16D mutation in cancer cells. 1581 86
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