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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two membrane transporters, the 17 amino acid (aa) oligopeptide penetratin derived from the homeodomain of Antennapedia (Ant) and an analogue of the basic domain of TAT (aa 47-57) (TAT-a) from HIV-1, were tested as carriers for a
p53
C-terminal peptide
(aa 361-382) into human breast cancer cells. The studies were performed to determine whether the membrane-transduction efficiency of membrane carriers: Ant, TAT or TAT analogue (TAT-a) correlated with peptide hydrophobic features. Peptide-sequence analysis clearly demonstrated that the Ant sequence and
p53
peptide sequence (p53p) together created a peptide with enhanced hydrophobic characteristics; while the TAT or TAT analogue (TAT-a) and p53p sequence together created a peptide with significantly less hydrophobic qualities. The degree of hydrophobic moment and helical wheel plots for these peptides correlated directly with their ability to transduce the
p53
peptide. Western blot analysis revealed that Ant was able to transduce
p53
C-terminal peptide
into human breast cancer cells as a highly efficient membrane transporter. Compared to Ant, TAT-a fused to the C-terminus of
p53
peptide (p53p-TAT-a) was a less efficient carrier into these cells under the conditions of our study. Additionally, N-terminal linked TAT-a to p53p (TAT-a-p53p) showed even lower efficiency as a transporter than
p53
-TAT-a. Apoptosis assays showed that the
p53
peptide, fused at its C-terminus to Ant (p53p-Ant), induced a higher percentage of apoptotic cells in human breast cancer cell lines expressing mutant or wild-type
p53
as compared to
p53
peptide fused at its C-terminus to the TAT-a sequence (p53p-TAT-a) or when fused at the N-terminus to TAT-a (TAT-a-p53p). These data suggested a direct correlation between hydrophobic characteristics and efficiency as a transporter. Sequence study, using hydrophobic moment and helical wheel analyses, may be useful predictive tools for choosing the best carrier for a peptide.
...
PMID:Correlation between hydrophobic properties and efficiency of carrier-mediated membrane transduction and apoptosis of a p53 C-terminal peptide. 1241 61
scFv fragments of a monoclonal antibody that penetrates living cells and localizes in nuclei were designed as fusion proteins with C-terminal
p53
peptides and tested for restoring
p53
function in
p53
mutant cancer cells. scFv fragments transported a 30-mer
C-terminal peptide
of
p53
into cancer cells and induced cellular cytotoxicity in contrast to scFv fragments alone and other scFv-
p53
fusion peptides. Cellular toxicity was not observed with scFv fragments containing a single mutation in VH that prevented antibody penetration. Our results demonstrate the potential efficacy of antibody scFv fragments as a nuclear delivery system in cancer cells.
...
PMID:Nuclear delivery of p53 C-terminal peptides into cancer cells using scFv fragments of a monoclonal antibody that penetrates living cells. 1276 30
S100 proteins belong to the EF-hand Ca2+-binding protein family and are involved in the regulation of a variety of cellular processes. Individual S100 proteins are expressed in cell- and tissue-specific manners, and functional deterioration of S100 proteins leads to a number of human diseases, including cancer. We previously demonstrated that S100C/A11 was translocated to nuclei and inhibited DNA synthesis in human keratinocytes when exposed to high Ca2+. In the present study we examined the effects of synthetic partial peptides of S100C/A11 on human carcinoma cell lines. Only an
N-terminal peptide
with 19 amino acid residues (MAK19) showed cytotoxicity to the cell lines in dose- and time-dependent manners when introduced into cells by flanking the HIV-TAT protein transduction domain (TAT-MAK19). Pulse field electrophoresis revealed that DNA of the treated cells was partially degradated. Annexin V, a marker of cellular apoptosis, was detected in the cells treated with TAT-MAK19 by immunostaining and flow cytometry. The induction of apoptotic cell death was apparently independent of
p53
, p21WAF1/CIP1, and caspase activity, but treatment with TAT-MAK19 resulted in partial translocation of apoptosis-inducing factor (AIF) from the cytoplasm to nuclei. These results indicate that MAK19 induces apoptosis in human cell lines and may therefore lead to the establishment of a new molecular target for the treatment of human cancer.
...
PMID:Introduction of an N-terminal peptide of S100C/A11 into human cells induces apoptotic cell death. 1524
We propose here a novel
p53
-targeting radio-cancer therapy using
p53
C-terminal peptides for patients having mutated
p53
. Hoechst 33342 staining showed that X-ray irradiation alone efficiently induced apoptotic bodies in wild-type
p53
(wt
p53
) human head and neck cancer cells transfected with a neo control vector (SAS/neo cells), but hardly induced apoptotic bodies in mutation-type
p53
(m
p53
) cells transfected with a vector carrying the m
p53
gene (SAS/m
p53
). In contrast, transfection of
p53
C-terminal peptides (amino acid residues 361-382 or 353-374) via liposomes caused a remarkable increase of apoptotic bodies in X-ray-irradiated SAS/m
p53
cells, but did not enhance apoptotic bodies in X-ray-irradiated SAS/neo cells. In immunocytochemical analysis, positively stained cells for active type caspase-3 were observed at high frequency after X-ray irradiation in the SAS/m
p53
cells pre-treated with
p53
C-terminal peptides. In SAS/neo cells, positively stained cells for active type caspase-3 were observed with X-ray irradiation alone. Furthermore, protein extracts from X-ray-irradiated SAS/m
p53
cells showed higher DNA-binding activity of
p53
to
p53
consensus sequence when supplemented in vitro with
p53
C-terminal peptides than extracts from non-irradiated SAS/m
p53
cells. These results suggest that radiation treatment in the presence of
p53
C-terminal peptides is more effective for inducing
p53
-mediated apoptosis than radiation treatment alone or
p53
C-terminal peptide
treatment alone, especially in m
p53
cancer cells. This novel tool for enhancement of apoptosis induction in m
p53
cells might be useful for
p53
-targeted radio-cancer therapy.
...
PMID:C-terminal peptides of p53 molecules enhance radiation-induced apoptosis in human mutant p53 cancer cells. 1531 87
A
p53
C-terminal peptide
(aa 361-382, p53p), fused at its C-terminus to the minimal carrier peptide of antennapedia (17 aa, Ant; p53p-Ant), induced rapid apoptosis in human cancer cells, via activation of the Fas pathway. We examined p53p-Ant mechanism of action, toxicity in various human normal, non-malignant, pre-malignant and malignant cancer cells and investigated its biophysical characteristics. p53p-Ant selectively induced cell death in only pre-malignant or malignant cells in a
p53
-dependent manner and was not toxic to normal and non-malignant cells. p53p-Ant was more toxic to the mutant p53 than wild-type
p53
phenotype in H1299 lung cancer cells stably expressing human temperature-sensitive
p53
mutant 143Ala. Surface plasmon resonance (BIACORE) analysis demonstrated that this peptide had higher binding affinity to mutant p53 as compared to wild-type
p53
. p53p-Ant induced-cell death had the classical morphological characteristics of apoptosis and had no features of necrosis. The mechanism of cell death by p53p-Ant was through the FADD/caspase-8-dependent pathway without the involvement of the TRAIL pathway, Bcl-2 family and cell cycle changes. Blocking Fas with antibody did not alter the peptide's effect, suggesting that Fas itself did not interact with the peptide. Transfection with a dominant-negative FADD with a deleted N-terminus inhibited p53p-Ant-induced apoptosis. Its mechanism of action is related to the FADD-induced pathway without restoration of other
p53
functions. p53p-Ant is a novel anticancer agent with unique selectivity for human cancer cells and could be useful as a prototype for the development of new anti-cancer agents.
...
PMID:Selective induction of apoptosis through the FADD/caspase-8 pathway by a p53 c-terminal peptide in human pre-malignant and malignant cells. 1564 52
The
tumor suppressor protein p53
is mutated in over half of human cancers. Despite 25 years of study, the complex regulation of this protein remains unclear. After serendipitously detecting RNA binding by
p53
in the yeast three-hybrid system (Y3H), we are exploring the specificity and function of this interaction. Electrophoretic mobility shift assays show that full-length
p53
binds equally to RNAs that are strongly distinguished in the Y3H. RNA binding blocks sequence-specific DNA binding by
p53
. The C-terminus of
p53
is necessary and sufficient for strong RNA interaction in vitro. Mouse and human C-terminal
p53
peptides have different affinities for RNA, and an acetylated human
p53
C-terminal peptide
does not bind RNA. Circular dichroism spectroscopy of
p53
peptides shows that RNA binding does not induce a structural change in the
p53
C-terminal peptide
, and C-terminal peptides do not detectably affect the structure of RNA. These results demonstrate that
p53
binds RNA with little sequence specificity, RNA binding has the potential to regulate DNA binding, and RNA-
p53
interactions can be regulated by acetylation of the
p53
C-terminus.
...
PMID:RNA-p53 interactions in vitro. 1728 51
Cancer cells escape apoptosis by intrinsic or acquired mechanisms of drug resistance. An alternative strategy to circumvent resistance to apoptosis could be through redirection into other death pathways, such as necrosis. However, necrosis is a nonspecific, nontargeted process resulting in cell lysis and inflammation of both cancer and normal cells and is therefore not a viable alternative. Here, we report that a
C-terminal peptide
of
p53
, called p53p-Ant, induced targeted necrosis only in multiple mutant p53 human prostate cancer lines and not normal cells, because the mechanism of cytotoxicity by p53p-Ant is dependent on the presence of high levels of mutant p53. Topotecan- and paclitaxel-resistant prostate cancer lines were as sensitive to p53p-Ant-induced targeted necrosis as parental lines. A massive loss of ATP pools and intracellular generation of reactive oxygen species was involved in the mechanism of targeted necrosis, which was inhibited by O(2)(.) scavengers. We hypothesize that targeted necrosis by p53p-Ant is dependent on mutant p53, is mediated by O(2)(.) loss and ATP, and can circumvent chemotherapy resistance to apoptosis. Targeted necrosis, as an alternative pathway for selective killing of cancer cells, may overcome the problems of nonspecificity in utilizing the necrotic pathway.
...
PMID:Activation of targeted necrosis by a p53 peptide: a novel death pathway that circumvents apoptotic resistance. 1763 58
Tumorogenic transformation is a multifaceted cellular process involving combinatorial protein-protein interactions that modulate different cellular functions. Here, we report apparent involvement in two independent tumorogenic processes by distinct partner protein interactions of the stress-induced acetylcholinesterase AChE-R and N-AChE-R variants. Human testicular tumors showed elevated levels of N-terminally extended N-AChE-R compared with healthy tissue, indicating alternate promoter usage in the transformed cells. Two-hybrid screens demonstrate that the C-terminus common to both N-AChE-R and AChE-R interacts either with the glycolytic enzyme enolase or with the scaffold protein RACK1. In vitro, the AChE-R
C-terminal peptide
ARP elevated enolase's activity by 12%, suggesting physiological relevance for this interaction. Correspondingly, CHO cells expressing either human AChE-R or N-AChE-R but not AChE-S showed a 25% increase in cellular ATP levels, indicating metabolic significance for this upregulation of enolase activity. ATP levels could be reduced by AChE-targeted siRNA in CHO cells expressing AChE-R but not AChE-S, attributing this elevation to the AChE-R C-terminus. Additionally, transfected CHO cells expressing AChE-R but not N-AChE-R showed resistance to up to 60 microM of the common chemotherapeutic agent, cis-platinum, indicating AChE-R involvement in another molecular pathway. cis-Platinum elevates the expression of the apoptosis-regulator
p53
-like protein, p73, which is inactivated by interaction with the scaffold protein RACK1. In co-transfected cells, AChE-R competed with endogenous RACK1 for p73 interaction. Moreover, AChE-R-transfected CHO cells presented higher levels than control cells of the pro-apoptotic TAp73 as well as the anti-apoptotic dominant negative DeltaNp73 protein, leading to an overall decrease in the proportion of pro-apoptotic p73. Together, these findings are compatible with the hypothesis that in cancer cells, both AChE-R and N-AChE-R elevate cellular ATP levels and that AChE-R modifies p73 gene expression by facilitating two independent cellular pathways, thus conferring both a selective metabolic advantage and a genotoxic resistance.
...
PMID:Alternate AChE-R variants facilitate cellular metabolic activity and resistance to genotoxic stress through enolase and RACK1 interactions. 1857 52
The binding of S100B to
p53
disables the biological function of
p53
as a tumor suppressor and thus causes cancer. It is very important to explore the interaction between S100B and
p53
and to develop inhibitors to block the interaction in anti-cancer development. In this work, the interaction of S100B to
p53
was studied using molecular dynamics (MD) at the atomic level and organic molecules have been identified as potential inhibitors to block the S100B-
p53
interaction. It was indicated in the simulations that S100B residues around GLU45 and GLU46 play an important role in the binding of S100B to
p53
. The three dimensional structure of S100B obtained from S100B-
p53
complex (PDB ID: 1DT7) was used as the target protein receptor. Multiple LUDI screenings for S100B ligands were performed using different searching radii 6.23 A, 7.23 A, 8.23 A, 9.23 A and 10.23A with a searching center which was defined as the geometrical center of S100B residues that are within 5A from the
p53
C-terminal peptide
in the complex. Potential organic compounds were screened from the ZINC database using LUDI program implemented in Cerius2 package and evaluated as potential S100B ligands to block the S100B-
p53
interaction. The top-scored compounds were selected for binding affinity calculation. The results show that these top-scored ZINC compounds bind in the location where
p53
binds and interact with S100B in a similar fashion as
p53
, and therefore it is expected that they have the potential to block S100B from binding to
p53
. The ADME and toxicity properties of the potential S100B ligands were also evaluated.
...
PMID:Computational screening and design of S100B ligand to block S100B-p53 interaction. 1932 80
The effect of a 19-amino-acid
C-terminal peptide
of tumstatin (aa 185-203, peptide 19) on human hepatoma cell (HepG2) proliferation was studied, as well as the mechanism by which it induces tumor cell apoptosis. Recombinant peptide 19 was purified by chitin affinity chromatography and identified by Tricine-SDS-PAGE. The DTT was removed with sephadex G-10. MTT colorimetry was used to evaluate the proliferation of tumor cells. Hematoxylin and eosin staining (H&E staining) and AO/EB double staining were used to view morphological changes during apoptosis. Mitochondrial potential was measured via flow cytometer. Western blot analysis was performed to detect the transfer of cytochrome C from mitochondria to the cytoplasm and to monitor the expression levels of caspase-8, caspase-9, Fas,
p53
, Bcl-2, Bax and Bid in human hepatoma cells. Recombinant peptide 19 effectively suppressed the proliferation of HepG2 cells and induced apoptosis. Each of the two effects had a dose-dependent relationship with recombinant peptide 19. Peptide 19 upregulated the expression of caspase-9, Fas,
p53
, Bax and Bid, downregulated the expression of Bcl-2 and had little effect on the expression of caspase 8. Peptide 19 decreased the mitochondrial membrane potential and induced the release of cytochrome C from mitochondria to the cytoplasm. In conclusion, peptide 19 induced HepG2 cell apoptosis through the mitochondrial apoptosis pathway.
...
PMID:Mitochondria-mediated tumstatin peptide-induced HepG2 cell apoptosis. 1978 99
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