Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Since the presence of anti-
p53
antibody has been correlated with the mutation and accumulation of
p53
, the aim of this study was to detect anti-
p53
antibody and understand its correlations with anti-Tof, -
Rex
, or -Tax antibody reactivity in HTLV-I infected people differing in their clinical status. A plasmid (pGEX-Tof) was constructed to express Tof recombinant protein (RP) in Escherichia coli. Serum samples from 50 asymptomatic carriers (ACs), 50 adult T-cell leukemia (ATL) and 50 HTLV-I-associated myelopathyltropical spastic paraparesis (HAM/TSP) patients were assayed for reactivity with different RPs by Western immunoblotting. The results showed that 2% of ACs, 4% of ATL patients and 6% of HAM/TSP patients had anti-
p53
antibody. Therefore, anti-
p53
antibody is not a useful serological marker for clinical management of HTLV-I infected people. Only 1 HAM/TSP patient had anti-Tof antibody whose specificity was further confirmed by antibody competition enzyme immunoassay. This study demonstrates that Tof protein is immunogenic in vivo, suggesting that it plays a role in the life cycle and pathogenesis of HTLV-I. The rate of anti-
Rex
antibody among HAM/TSP patients was significantly higher than that of ACs or ATL patients. In addition, 50% of ACs, 42% of ATL and 98% of HAM/TSP patients had anti-Tax antibody. McNemar's test showed that the presence of anti-
p53
antibody did not have any correlation with the anti-Tax antibody in HTLV-I-infected people, while the correlation between anti-
p53
and anti-
Rex
antibodies or anti-
p53
and anti-Tof antibodies cannot be ruled out in this study.
...
PMID:Antibody reactivities to tumor-suppressor protein p53 and HTLV-I Tof, Rex and Tax in HTLV-I-infected people with differing clinical status. 913 42
The E1B-55K and E4orf6 oncoproteins of adenovirus type 5 are involved in the export of viral mRNAs. Previously, it was suggested that a complex composed of E1B-55K and E4orf6 serves as a nucleocytoplasmic transporter for viral mRNAs in which the E4orf6 protein directs both nuclear import and export. We now demonstrate that the E1B-55K protein itself shuttles efficiently in the absence of E4orf6. In addition, E1B-55K trafficking was independent of the defined shuttle proteins Mdm2 or
p53
, which interacts with E1B-55K. The identified N-terminal E1B-55K leucine-rich nuclear-export signal (NES) conferred rapid nuclear export even in a heterologous system in contrast to the postulated E4orf6NES. Interestingly, although shuttling was blocked by inhibitors of the CRM1 mediated export pathway, E1B-55K inhibited neither the activity nor the trafficking of the retroviral shuttle proteins HIV-1 Rev and HTLV-1
Rex
. In contrast, Rev or
Rex
blocked the nuclear export of E1B-55K, most likely by competing for essential export factors. Our results provide new insights into the regulation of the adenovirus mRNA export system and the processes of adenovirus mediated transformation. Oncogene (2000) 19, 850 - 857.
...
PMID:The adenovirus type 5 E1B-55K oncoprotein is a highly active shuttle protein and shuttling is independent of E4orf6, p53 and Mdm2. 1070 93
The principal regulator of
p53
stability is HDM2, an E3 ligase that mediates
p53
degradation via the ubiquitin-26S proteasome pathway. The current model holds that
p53
degradation occurs exclusively on cytoplasmic proteasomes and hence has an absolute requirement for nuclear export of
p53
via the CRM-1 pathway. However, proteasomes are abundant in both cytosol and nucleus, and no studies have been done to determine under what physiological circumstances
p53
degradation might occur in the nucleus. We analyzed HDM2-mediated degradation of endogenous
p53
in the presence of various nuclear export inhibitors of CRM-1, including leptomycin B (LMB), a noncompetitive, specific, and fast-acting inhibitor; and HTLV1-
Rex
protein, a potent competitive inhibitor. We found that significant HDM2-mediated
p53
degradation took place in the presence of LMB or HTLV1-
Rex
, indicating that endogenous
p53
degradation occurs locally in the nucleus, in parallel to cytoplasmic degradation. Moreover,
p53
null cells that coexpressed export-defective mutants of
p53
and HDM2 retained partial competence for
p53
degradation. It is important that nuclear degradation of
p53
occurred during the poststress recovery phase of a
p53
response, after DNA damage ceased. We propose that the capability of local
p53
degradation within the nucleus provides a tighter and faster control during the down-regulatory phase, when an active
p53
program needs to be turned off quickly.
...
PMID:Nuclear degradation of p53 occurs during down-regulation of the p53 response after DNA damage. 1179 Jul 25
The principal regulator of
p53
stability is HDM2, an E3 ligase mediating
p53
degradation via the ubiquitin-26S proteasome pathway. Until recently, the accepted model held that
p53
degradation occurs exclusively on cytoplasmic proteasomes, with an absolute requirement for nuclear export of
p53
via the CRM1 pathway. However, 26S proteasomes are abundant in cytosol and nucleus. Using forced overexpression of HDM2 in mutant p53 tumor cells, we previously found that
p53
degradation occurs in both the nucleus and the cytoplasm.
p53
null cells coexpressing export-defective
p53
and HDM2 retained partial competence for
p53
degradation, challenging the obligatory export model. Because the ability of local nuclear destruction might add important control in switching off the
p53
pathway, we now test this notion for physiological situations in untransfected cells and determine the significance of this regulation. Despite nuclear export blockade by leptomycin B and HTLV1-
Rex
protein, two potent CRM1 inhibitors, nuclear degradation of endogenous wild-type
p53
and HDM2 occurs during down-regulation of the
p53
response. This was seen in RKO and U2OS cells recovering from all major forms of DNA damage, including UV, gamma-IR, camptothecin, or cisplatinum. Moreover, significant nuclear degradation of endogenous
p53
and HDM2 occurs in isolated nuclear fractions prepared from these recovering cells. Furthermore, nuclear proteasomes efficiently degrade ubiquitinated
p53
in vitro. Our data indicate that in nonlethal outcomes of cellular stress, when DNA damage has been successfully repaired and the active
p53
response needs to be down-regulated quickly to resume normal homeostasis, both nuclear and cytoplasmic proteasomes are recruited to efficiently degrade the elevated
p53
and HDM2 protein levels. The physiological significance of local nuclear destruction lies in the fact that it adds tighter control and speed to switching the
p53
pathway off.
...
PMID:Nuclear and cytoplasmic degradation of endogenous p53 and HDM2 occurs during down-regulation of the p53 response after multiple types of DNA damage. 1295 68
In the present study, the potential of selenium to enhance stem cell behavior through improvement of human adipose tissue-derived stromal cells (ATSCs) and the associated molecular mechanism was evaluated. Selenium-induced improvement in stem cell behavior of human ATSCs caused expression of several genes, indicating downregulated mature cell marker proteins coupled with increased cell growth and telomerase activities after the overexpression of Rex1, Nanog, OCT4, SOX2, KLF4, and c-Myc. Also, selenium-treated ATSCs significantly downregulated
p53
and p21 tumor suppressor gene products. Selenium induced active growth and growth enhanced by the activation of signal proteins in ATSCs via the inhibition of reactive oxygen species-mediated phospho-stress-activated protein kinase/c-Jun N-terminal protein kinase activation. The selenium-induced activation of extracellular regulated kinases 1/2 and Akt in ATSCs resulted in a subsequent induction of the expression of stemness transcription factors, particularly Rex1, Nanog, and Oct4, along with definitive demethylation on regulatory regions of
Rex
-1, Nanog, and Oct4. The results of our small interfering RNA knockdown experiment showed that Rex1 plays a major role in the proliferation of selenium-induced ATSCs. Selenium-treated ATSCs also exhibited more profound differentiation into mesodermal and neural lineages. We performed a direct comparison of gene expression profiles in control ATSCs and selenium-treated ATSCs and delineated specific members of important growth factor, signaling, cell adhesion, and transcription factor families. The observations of improved life span and multipotency of selenium-treated ATSCs clearly indicate that selenium-treated ATSCs represent an extraordinarily useful candidate cell source for tissue regeneration. Disclosure of potential conflicts of interest is found at the end of this article.
...
PMID:IFATS collection: Selenium induces improvement of stem cell behaviors in human adipose-tissue stromal cells via SAPK/JNK and stemness acting signals. 2473 3
Optimization of mesenchymal stem cells (MSC) culture conditions is of great importance for their more successful application in regenerative medicine. O(2) regulates various aspects of cellular biology and, in vivo, MSC are exposed to different O(2) concentrations spanning from very low tension in the bone marrow niche, to higher amounts in wounds. In our present work, we isolated mouse bone marrow stromal cells (BMSC) and showed that they contained a population meeting requirements for MSC definition. In order to establish the effect of low O(2) on cellular properties, we examined BSMC cultured under hypoxic (3% O(2)) conditions. Our results demonstrate that 3% O(2) augmented proliferation of BMSC, as well as the formation of colonies in the colony-forming unit assay (CFU-A), the percentage of quiescent cells, and the expression of stemness markers
Rex
-1 and Oct-4, thereby suggesting an increase in the stemness of culture when exposed to hypoxia. In contrast, intrinsic differentiation processes were inhibited by 3% O(2). Overall yield of differentiation was dependent on the adjustment of O(2) tension to the specific stage of BMSC culture. Thus, we established a strategy for efficient BMSC in vitro differentiation using an initial phase of cell propagation at 3% O(2), followed by differentiation stage at 21% O(2). We also demonstrated that 3% O(2) affected BMSC differentiation in
p53
and reactive oxygen species (ROS) independent pathways. Our findings can significantly contribute to the obtaining of high-quality MSC for effective cell therapy.
...
PMID:Low oxygen tension maintains multipotency, whereas normoxia increases differentiation of mouse bone marrow stromal cells. 2334 Jun 51
