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: EC:2.3.1.108 (TAT)
2,389 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Effective gene therapy depends on the efficient transfer of therapeutic genes to target cells. None of the current technologies, however, satisfy all of the requirements necessary for gene therapy, because the plasma and nuclear membranes of mammalian cells are tight barriers against gene transfer using synthetic delivery systems. The protein transduction domain (PTD) of human immunodeficiency virus type 1 (HIV-1) Tat protein greatly facilitates protein transfer via membrane destabilisation. We synthesised polylysine peptides containing Tat PTD (TAT-pK), or other sequences, and investigated their potential as agents for gene transfer. The synthesised polypeptide TAT-pK retains DNA binding function and mediates delivery of a reporter gene to cultured cells. RGD motif binds with low affinity to alpha integrins which induce cell activation. Two control polypeptides, GGG-pK and RGD-pK, were synthesised and tested, but their gene transfer abilities were weaker than those of TAT-pK. TAT-pK-mediated gene transfer was enhanced in the presence of chloroquine or ammonium chloride, to a greater extent than that of cationic lipid-mediated gene transfer in most cancer cell lines tested. These data suggest that TAT-pK may be a potent candidate delivery vehicle that promotes gene transfer, dependent on the endocytic pathway. We conclude that the TAT-pK/DNA complex is useful as a minimal unit to package therapeutic genes and to transduce them into mammalian cells.
Br J Cancer 2004 Mar 22
PMID:Fusion of HIV-1 Tat protein transduction domain to poly-lysine as a new DNA delivery tool. 1502 9

Many conventional anticancer treatments kill cells irrespective of whether they are normal or cancerous, so patients suffer from adverse side effects due to the loss of healthy cells. Anticancer insights derived from cell cycle research has given birth to the idea of cell cycle G2 checkpoint abrogation as a cancer cell specific therapy, based on the discovery that many cancer cells have a defective G1 checkpoint resulting in a dependence on the G2 checkpoint during cell replication. Damaged DNA in humans is detected by sensor proteins (such as hHUS1, hRAD1, hRAD9, hRAD17, and hRAD26) that transmit a signal via ATR to CHK1, or by another sensor complex (that may include gammaH2AX, 53BP1, BRCA1, NBS1, hMRE11, and hRAD50), the signal of which is relayed by ATM to CHK2. Most of the damage signals originated by the sensor complexes for the G2 checkpoint are conducted to CDC25C, the activity of which is modulated by 14-3-3. There are also less extensively explored pathways involving p53, p38, PCNA, HDAC, PP2A, PLK1, WEE1, CDC25B, and CDC25A. This review will examine the available inhibitors of CHK1 (Staurosporin, UCN-01, Go6976, SB-218078, ICP-1, and CEP-3891), both CHK1 and CHK2 (TAT-S216A and debromohymenialdisine), CHK2 (CEP-6367), WEE1 (PD0166285), and PP2A (okadaic acid and fostriecin), as well as the unknown checkpoint inhibitors 13-hydroxy-15-ozoapathin and the isogranulatimides. Among these targets, CHK1 seems to be the most suitable target for therapeutic G2 abrogation to date, although an unexplored target such as 14-3-3 or the strategy of targeting multiple proteins at once may be of interest in the future.
Mol Cancer Ther 2004 Apr
PMID:G2 checkpoint abrogators as anticancer drugs. 1507 95

Growth inhibition by transforming growth factor (TGF)-beta 1 has been attributed to the induction of cyclin-dependent kinase inhibitors, among which p21/Waf1 plays a major role in many biological contexts. In the present study, two new intracellular mediators for the induction of p21/Waf1 by TGF-beta 1 were identified in a human hepatocellular carcinoma cell line (JHH-5) expressing mutant-type p53. After addition of TGF-beta 1 to JHH-5 cells, a marked increase of the p21/Waf1 expression preceded the inhibition of DNA synthesis. Expression of IFN regulatory factor (IRF)-1, a known transacting factor for p21/Waf1 promoter, was elevated just before or in parallel with the increase of p21/Waf1. Transduction of antisense IRF-1 inhibited the increase in p21/Waf1 in JHH-5 cells treated with TGF-beta 1 and partially released the cells from the growth arrest by TGF-beta 1. Expression of S100C/A11, a member of the Ca(2+)-binding S100 protein family, also markedly increased after addition of TGF-beta 1. S100C/A11 protein was translocated to and accumulated in nuclei of TGF-beta 1-treated JHH-5 cells, where p21/Waf1 was concomitantly accumulated. When a recombinant S100C/A11 protein was introduced into nuclei of JHH-5 cells, DNA synthesis was markedly inhibited in a dose-dependent manner in the absence of TGF-beta 1. Prior transfection of p21/Waf1-targeted small interfering RNA efficiently blocked decrease of DNA synthesis in JHH-5 cells caused by TAT-S100C/A11 or TGF-beta 1 and markedly inhibited expression of p21/Waf1 protein in the cells. These results indicate that IRF-1 and S100C/A11 mediate growth inhibition by TGF-beta 1 via induction of p21/Waf1.
Cancer Res 2004 Jun 15
PMID:Involvement of interferon regulatory factor 1 and S100C/A11 in growth inhibition by transforming growth factor beta 1 in human hepatocellular carcinoma cells. 1520 26

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

Tumor hypoxia in a solid tumor mass has long been recognized as a cause of resistance to current cancer therapies, and has also been suggested to be a potent driving force towards malignancy. Recent progress in the understanding of the molecular mechanism of the tumor response to hypoxia has increased attention on targeting hypoxia for cancer therapy. We have generated a hypoxia-targeting fusion protein, TOP3, which is composed of a protein transduction domain (PTD) of HIV TAT, an oxygen-dependent degradation domain (ODD) of HIF-1 alpha, and procaspase-3. Here, we examine the effects of TOP3 in a rat ascites model. First, we clarified that the fluid in ascites from MM1 cells, which are derivatives of AH130 rat ascites hepatoma cells, was highly hypoxic. In vitro, MM1 cells retained protein degradation machinery through the ODD domain, and TOP3 effectively impaired MM1 cell growth in culture under hypoxic conditions by inducing apoptosis. Intraperitoneal administration of TOP3 prolonged the life span of rats bearing a significant amount of malignant ascites, and 60% of the treated animals were cured without recurrence of ascites. Thus, TOP3 had a dramatic effect on malignant ascites and, hence, we propose that rodent malignant ascites is an appropriate platform for testing hypoxia-targeted drugs.
...
PMID:Targeting hypoxic cancer cells with a protein prodrug is effective in experimental malignant ascites. 1528 74

Treatment of many cancers relies on the combined action of several genotoxins, but the detrimental effect of these drugs on normal cells can cause severe side effects. One major challenge in anticancer therapy is therefore to increase the selectivity of current treatments toward cancer cells in order to spare normal cells. We have recently demonstrated that a RasGAP caspase cleavage fragment is able to sensitize HeLa cells towards cisplatin-induced apoptosis. Here, we extend this observation by showing that this fragment also enhances cell death induced by adriamycin and mitoxantrone, two other widely used genotoxins. Furthermore, we have delineated a short sequence within this fragment that still bears the genotoxin-sensitization property. The peptide encoded by this sequence, when fused to the TAT cell permeation sequence, potently sensitized a number of tumors cells, but not normal cells, towards apoptosis induced by cisplatin, adriamycin and mitoxantrone. This sensitization effect was not mediated through modulation of NFkappaB activity or activation of the JNK and p38 MAPK pathways. Our results demonstrate the feasibility in enhancing the efficacy of currently used drugs to selectively kill cancer cells using peptides derived from pro-apoptotic caspase substrate fragments.
...
PMID:A RasGAP-derived cell permeable peptide potently enhances genotoxin-induced cytotoxicity in tumor cells. 1546 50

Fluorescence microscopy may provide important information regarding interactions between nanoparticulate drugs carriers, such as liposomes and micelles, with target cells as well as their intracellular fate. Current paper describes various applications of fluorescence microscopy to investigate specific targeting of antibody-modified drug carriers to cancer cells. The enhanced antibody-mediated targeting of drug-loaded immunomicelles confirmed by fluorescence microscopy resulted in enhanced cancer cell killing compared to free drug or drug-loaded nontargeted micelles. Fluorescence microscopy was also used to prove the endosomal escape of properly assembled polymeric micelles (based on polyethylene glycol-phosphatidylethanolamine conjugate, PEG-PE) containing various additives destabilizing the endosomal membrane. When loaded with the anticancer drug (paclitaxel or vitamin K3), such micelles demonstrate increased cytotoxicity. Fluorescence microscopy was also applied to investigate the capture of cell-penetrating TAT peptide-modified liposomes by various cells and stability and intracellular trafficking of captured TAT-liposomes inside cells. It was also used to confirm the successful transfection of cells with TAT-liposomes bearing the plasmid encoding for the Green Fluorescent Protein (GFP).
...
PMID:Fluorescence microscopy to follow the targeting of liposomes and micelles to cells and their intracellular fate. 1551 23

The resistance of melanoma to apoptosis, as well as its growth and metastasis capabilities, can be overcome by expression of a peptide derived from amino acid (aa) 51 to 100 of ATF2. Here we show that expression of ATF2((51-100)) in human melanoma cells reduced their growth in nude mice, which was additionally inhibited upon treatment with protein kinase inhibitors UCN-01 or SB203580. Injection of a fusion protein consisting of HIV-TAT and aa 51 to 100 of ATF2 into SW1 melanomas efficiently inhibits their growth and their metastasis up to complete regression. Additionally, expression of a 10aa peptide that corresponds to aa 51 to 60 of ATF2 sensitizes melanoma cells to spontaneous apoptosis, which coincides with activation of caspase 9 and poly(ADP-ribose) polymerase cleavage, and inhibit their growth in vivo. The 10aa peptide increases the association of c-Jun NH(2)-terminal kinase with c-Jun but not with ATF2, resulting in concomitant increase in TRE-mediated transcription. Our study points to mechanisms underlying the activities of the ATF2 peptide while highlighting its possible use in drug design.
Cancer Res 2004 Nov 15
PMID:Inhibition of melanoma growth and metastasis by ATF2-derived peptides. 1554 88

Naturally occurring and synthetic short arginine containing protein transduction domains (PTDs), including HIV1 TAT, poly-Arg and Antp, have been used to deliver a wide variety of macromolecular, biologically active therapeutic cargo into cells, including peptides, proteins, antisense oligonucleotides and liposomes, in vitro and to treat pre-clinical models of cancer and stroke. PTDs enter cells in a rapid, receptor-independent fashion. Recently, large TAT-fusion proteins (in excess of 30,000 Da) were shown to transduce into cells by fluid-phase macropinocytosis, a specialized form of endocytosis that is independent of caveolae, clathrin and dynamin. However, it remains controversial as to whether or not PTD peptides (1000-5000 Da) enter cells via macropinocytosis and/or through an unknown alternative mechanism. Due to strong ionic interactions with the cell surface, previous measurements of PTD peptide internalization were inaccurate. Cationic PTD peptides containing variable numbers of arginine residues and conditions entered cells exclusively through macropinocytosis. In addition, no PTD peptide was found to enter cells at 4 degrees C, a long held assumption of transduction. Taken together, these observations provide a solid scientific basis for the development of novel biologically active transducible anticancer PTD peptide therapeutics.
...
PMID:Cationic TAT peptide transduction domain enters cells by macropinocytosis. 1565 49

Cell-penetrating peptides (CPPs) have been used to overcome the lipophilic barrier of the cellular membranes and deliver large molecules and even small particles inside the cell for their biological actions. CPPs are being used to deliver inside cell a large variety of cargoes such as proteins, DNA, antibodies, contrast (imaging) agents, toxins, and nanoparticular drug carriers including liposomes. In this paper, we have reviewed the delivery of different molecules and particles mediated by TAT, Antp, VP22, and other CPPs as well as potential applications of these delivery systems in different areas of vaccine development, cancer immunotherapy, gene delivery, and cellular imaging.
...
PMID:Intracellular delivery of large molecules and small particles by cell-penetrating proteins and peptides. 1572 68


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---