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Target Concepts:
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Query: EC:2.3.1.108 (
TAT
)
2,389
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It is known that p53 alterations are commonly found in tumour cells. Another marker of tumorigenesis is FAK (focal adhesion kinase), a non-receptor kinase that is overexpressed in many types of tumours. Previously we determined that the N-terminal domain of FAK physically interacted with the N-terminal domain of p53. In the present study, using phage display, sitedirected mutagenesis, pulldown and immunoprecipitation assays we localized the site of FAK binding to a 7-amino-acid region(amino acids 65-71) in the N-terminal proline-rich domain of human p53. Mutation of the binding site in p53 reversed the suppressive effect of FAK on p53-mediated transactivation ofp21,
BAX
(Bcl-2-associated X protein) and Mdm2 (murine double minute 2) promoters. In addition, to functionally test this p53 site, we conjugated p53 peptides [wild-type (containing the wild-type binding site) and mutant (with a mutated 7-aminoacid binding site)] to a
TAT
peptide sequence to penetrate the cells, and demonstrated that the wild-type p53 peptide disrupted binding of FAK and p53 proteins and significantly inhibited cell viability of HCT116 p53+/+ cells compared with the control mutant peptide and HCT116 p53-/- cells. Furthermore, the
TAT
-p53 peptide decreased the viability of MCF-7 cells, whereas the mutant peptide did not cause this effect. Normal fibroblast p53+/+ and p53-/- MEF (murine embryonic fibroblast) cells and breast MCF10A cells were not sensitive to p53 peptide. Thus, for the first time, we have identified the binding site of the p53 andFAK interaction and have demonstrated that mutating this site and targeting the site with peptides affects p53 functioning and viability in the cells.
...
PMID:The 7-amino-acid site in the proline-rich region of the N-terminal domain of p53 is involved in the interaction with FAK and is critical for p53 functioning. 1821 42
As a breast cancer subtype with high mortality in women, the efficient treatment of Triple-negative breast cancer (TNBC) is still a challenge due to its unique metastatic mode and poor prognosis. In this study, we developed a biomimetic nanodelivery system (denoted as GTDC@M-R NPs) based on erythrocyte membrane (M)-camouflaged graphene oxide quantum dots (GOQDs, G) for TNBC therapy. The
TAT
(T) and RGD (R) peptides were used to endow targeting accumulation ability of Gamabufotalin (CS-6, C) and doxorubicin (DOX, D) in tumor tissue. In vitro assay indicated good biocompatibility, prolonged blood circulation time (3-fold longer than GT NPs), and effectively enhanced cell and nucleus targeting capability of this nanosystem. Fluorescence activated cell sorter (FACS) analysis indicated that the combination of DOX and CS-6 induced TNBC cell apoptosis more than 89 % under the ratio of 10:1. In vivo assay indicated that the accumulation of GTDC@M-R NPs in tumor sites increased about 2-fold compared to naked GTDC NPs, which was accompanied by high tumor apoptosis rates through blocking chemotherapy-activated cyclooxygenase-2 (COX-2) and enhancing DOX's anti-tumor activity of chemical drugs (85%). Moreover, comparing with the control, the average number of lung metastatic nodules in tumor-bearing mice reduced 84%, the molecular mechanism of which is related to the down expression of COX-2, matrix metalloproteinase 9 (MMP9) and vascular endothelial growth factor (VEGF). Taken together, our results proved that the developed GTDC@M-R NPs can inhibit the growth and suppress metastasis of TNBC, which broaden our insights into the application of combinational strategy for efficient TNBC therapy. STATEMENT OF SIGNIFICANCE: In this study, we developed a biomimetic nanodelivery system (denoted as GTDC@M-R NPs) based on erythrocyte membrane (M)-camouflaged graphene oxide quantum dots (GOQDs, G) for TNBC therapy. The
TAT
(T) and RGD (R) peptides were used to endow targeting accumulation ability of Gamabufotalin (CS-6, C) and doxorubicin (DOX, D) in tumor tissue. These GTDC@M-R NPs indicated synergistic chemotherapy against TNBC cells through the precise cell and nuclear targeting, immune escape, and improved DOX sensitivity. A effective inhibition of tumor growth and metastasis was achieved by inhibiting Bcl-2/
BAX
, COX-2 and VEGF related signal pathways. Our finding suggests that the developed GTDC@M-R NPs present great treating effects in the preclinical models of TNBC, which broaden our insights into the application of combinational strategy for efficient TNBC therapy.
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PMID:Sequentially-targeted biomimetic nano drug system for triple-negative breast cancer ablation and lung metastasis inhibition. 3256 37
