UMLS:C0019693 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A number of proteins are able to enter cells from the extracellular environment, including protein toxins, growth factors, viral proteins, homeoproteins, and others. Many such translocating proteins, or parts of them, appear to be able to carry with them cargo into the cell, and a basic sequence from the HIV-1 Tat protein has been reported to provide intracellular delivery of several fused proteins. For evaluating the efficiency of translocation to the cytosol, this TAT-peptide was fused to the diphtheria toxin A-fragment (dtA), an extremely potent inhibitor of protein synthesis which normally is delivered efficiently to the cytosol by the toxin B-fragment. The fusion of the TAT-peptide to dtA converted the protein to a heparin-binding protein that bound avidly to the cell surface. However, no cytotoxicity of this protein was detected, indicating that the TAT-peptide is unable to efficiently deliver enzymatically active dtA to the cytosol. Interestingly, the fused TAT-peptide potentiated the binding and cytotoxic effect of the corresponding holotoxin. We made a fusion protein between VP22, another membrane-permeant protein, and dtA, and also in this case we detected association with cells in the absence of a cytotoxic effect. The data indicate that transport of dtA into the cell by the TAT-peptide and VP22 is inefficient.
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PMID:Ability of the Tat basic domain and VP22 to mediate cell binding, but not membrane translocation of the diphtheria toxin A-fragment. 1128 91

In vivo gene delivery can be achieved by direct injection of plasmid DNA. However, inefficient cellular uptake and nuclear import of plasmid DNA result in much lower levels of gene expression than observed when viral vectors are used as gene delivery agents. Recent studies have shown that transducing peptides, such as the HIV Tat protein, can carry large biomolecules from the extracellular environment directly into the cytoplasm and the nucleus of cells, both in vitro and in vivo. Thus, TAT-mediated transduction has the potential to increase the delivery of plasmid DNA to the nuclei of cells in vivo and thereby increase gene expression.
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PMID:Protein/peptide transduction domains: potential to deliver large DNA molecules into cells. 1133 27

Phosphorylation and dephosphorylation are key events in protein expression and regulation and in signal transduction. Phosphopeptides are very useful reagents for the study of these processes, and have been used to great advantage in the study of phosphatase substrate specificity, SH2 domain ligand specificity, and protein-protein interactions. Furthermore, the advent of cell-permeable peptide carriers, such as those from the antennapedia homeodomain and the HIV TAT transcription factor, has allowed the study of intracellular events, thus underscoring the utility of these reagents. In this paper we review methods for the synthesis of phosphopeptides with the emphasis on the preparation of phosphoamino acid building blocks.
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PMID:The synthesis of phosphopeptides. 1137 30

Manipulation of mammalian cells has been achieved by the transfection of expression vectors, microinjection, or diffusion of peptidyl mimetics. While these approaches have been somewhat successful, the classic manipulation methods are not easily regulated and can be laborious. One approach to circumvent these problems is the use of HIV TAT-mediated protein transduction. Although this technology was originally described in 1988, few improvements were reported in the subsequent 10 years. In the last few years, significant steps have been taken to advance this technology into a broadly applicable method that allows for the rapid introduction of full-length proteins into primary and transformed cells. The technology requires the synthesis of a fusion protein, linking the TAT transduction domain to the molecule of interest using a bacterial expression vector, followed by the purification of this fusion protein under either soluble or denaturing conditions. The purified fusion protein can be directly added to mammalian cell culture or injected in vivo into mice. Protein transduction occurs in a concentration-dependent manner, achieving maximum intracellular concentrations in less than 5 min, with nearly equal intracellular concentrations between all cells in the transduced population. Full-length TAT fusion proteins have been used to address a number of biological questions, relating to cell cycle progression, apoptosis, and cellular architecture. Described here are the fundamental requirements for the creation, isolation, and utilization of TAT-fusion proteins to affect mammalian cells. A detailed protocol for production and transduction of TAT-Cdc42 into primary cells is given to illustrate the technique.
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PMID:TAT-mediated protein transduction into mammalian cells. 1140 74

Many regions of the HIV-1 genome have been targeted in earlier studies by RNA-cleaving DNA enzymes possessing the 10-23 catalytic motif, and efficient inhibition of HIV-1 gene expression was reported. All these studies employed charged synthetic lipids to introduce the catalytic DNA into the mammalian cells, which severely limits its practical application and usefulness in vivo. Taking advantage of the ability of G residues to interact directly with the scavenger receptors on the macrophages, we synthesized a DNA enzyme 5970 that contained 10 G residues at the 3' end. With the aim of improving the intracellular stability of the DNA enzyme 5970, we added two short stretches of stem-loop structures that were 12 bases long on either side of the DNA enzyme 5970. DNA enzyme 5970 without the poly-G tracts cleaved the synthetic RNA of HIV-1 TAT/Rev, two important regulatory proteins of HIV, very efficiently in a sequence-specific manner. Addition of 10 G residues at the 3' end of the DNA enzyme affected the cleavage efficiency only marginally whereas the same DNA enzyme with stem-loop structures on either end was significantly less efficient. The DNA enzyme with the poly-G tract at its 3' end was taken up specifically by a human macrophage-specific cell line directly in the absence of Lipofectin and was also able to inhibit HIV-1 gene expression in a transient-expression system as well as when challenged with the virus. The potential applications of these novel macrophage-tropic DNA enzymes are discussed.
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PMID:Inhibition of HIV-1 gene expression by novel macrophage-tropic DNA enzymes targeted to cleave HIV-1 TAT/Rev RNA. 1141 45

The regulatory proteins TAT and REV play a very important role in the transcription and replication of HIV-1. In order to seHIV-01lectively down regulate the expression of these genes we synthesized several mono- and one di-DNA-enzyme against the TAT or TAT-REV RNA. Several mono-DNA-enzymes possessing the 10-23 catalytic motif were assembled that were targeted to the predicted loop region of TAT or TAT/REV RNA. The cleavage efficiency of each mono-DNA-enzyme was variable and independent of the size of the predicted loop structure of the target RNA. DNA-enzyme targeted against the largest loop region cleaved the substrate RNA poorly. Mono-DNA-enzyme-5944 that targets only the TAT region cleaved the substrate poorly but the DNA-enzyme-5970 that overlaps TAT and REV showed potent cleavage activity. The two DNA-enzymes, when placed in tandem, cleaved the target RNA at multiple sites that were specific for the two mono-DNA-enzymes. Only Dz-5970 retained the ability to cleave the target RNA specifically at simulated physiological conditions. They were able to inhibit HIV-1 specific genes efficiently when introduced into a mammalian cell. The extent of inhibition correlated with their cleavage efficiency obtained at standard conditions of cleavage. Although DNA-enzyme-5970 showed the highest reduction (approximately 90%), other DNA-enzymes (mono-DNA-enzyme-5944 and the di-DNA-enzyme) also showed reduction to an extent of 60 and 80% respectively. The inhibitory effect of the DNA-enzyme could be overcome by providing HIV-1 TAT to the cells.
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PMID:Novel mono- and di-DNA-enzymes targeted to cleave TAT or TAT-REV RNA inhibit HIV-1 gene expression. 1143 Oct 37

To achieve an efficient intracellular drug and DNA delivery, attempts were made to target microparticulate drug carriers into cytoplasm bypassing the endocytotic pathway. TAT peptides derived from the HIV-1 TAT protein facilitate intracellular delivery of proteins and small colloidal particles. We demonstrated that relatively large drug carriers, such as 200-nm liposomes, can also be delivered into cells by TAT peptide attached to the liposome surface. Liposomes were fluorescently labeled with membranotropic rhodamine-phosphatidylethanolamine or by entrapping FITC-dextran. Incubation of fluorescent TAT liposomes with mouse Lewis lung carcinoma cells, human breast tumor BT20 cells, and rat cardiac myocyte H9C2 results in intracellular localization of certain liposomes. Steric hindrances for TAT peptide x cell interaction (attachment of TAT directly to the liposome surface without spacer or the presence of a high MW polyethylene glycol on the liposome surface) abolish liposome internalization, evidencing the importance of direct contact of TAT peptide with the cell surface. Low temperature or metabolic inhibitors, sodium azide or iodoacetamide, have little influence on the translocation of TAT liposomes into cells, confirming the energy-independent character of this process. The approach may have important implications for drug delivery directly into cell cytoplasm.
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PMID:TAT peptide on the surface of liposomes affords their efficient intracellular delivery even at low temperature and in the presence of metabolic inhibitors. 1143 7

The resounding success of a new immunosuppressive regimen known as the Edmonton protocol demonstrates that islet cell transplantation is becoming a therapeutic reality for diabetes. However, under the Edmonton protocol, a single donor does not provide enough islets to attain the insulin independence of a transplant recipient. This limitation is mainly caused by islet apoptosis triggered during isolation. In this study, we describe a highly efficient system of transiently transferring anti-apoptotic proteins into pancreatic islets, thus opening an exciting new therapeutic opportunity to improve the viability of transplantable islets. We fused beta-galactosidase to the 11-amino acid residues that constitute the protein transduction domain (PTD) of the HIV/TAT protein and transduced pancreatic islets ex vivo with this fusion protein in a dose-dependent manner with >80% efficiency. We observed that transduction of the anti-apoptotic proteins Bcl-X(L) and PEA-15 fused to TAT/PTD prevented apoptosis induced by tumor necrosis factor-alpha in a pancreatic beta-cell line, indicating that TAT/PTD anti-apoptotic proteins retained their biological activity. Finally, we demonstrated that TAT-fusion proteins did not affect the insulin secretion capability of islets, as determined by glucose static incubation and by reversion of hyperglycemia in diabetic immunodeficient mice.
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PMID:Proteins linked to a protein transduction domain efficiently transduce pancreatic islets. 1147 28

The interaction of glycosaminoglycans (GAG) with peptides relies on noncovalent binding to basic amino acid sequences, for which a minimal requirement is a pentapeptide region in the protein and the sulfated and carboxyl region in the GAG. Since such sequences are present in the heparin-binding angiogenic cytokines, including hepatocyte growth factor (HGF), we have postulated that such small peptides may have biological activity. Two basic peptide regions of the beta chain of HGF (RYRNKH512-516, HHRGK645-649) exhibited significant antiangiogenic activity in vivo in the chorioallantoic membrane assay and showed some antiproliferative activity in vitro on normal human brain microvessel endothelial-but not on anchorage-independent endothelial-cells (Kaposi sarcoma). Basic HIV-TAT peptides and scrambled hexapeptides did not show similar activity, except for KRKRKR, indicating sequence specificity of the phenomena. An HGF-derived basic peptide, HHRGK, modulated tumor-induced angiogenesis in vivo by interfering with the morphogenic, but not with the proliferative, phase of the process. These observations suggest small basic peptides as a new class of angiogenesis modulators.
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PMID:Effect of HGF-like basic hexapeptides on angiogenesis. 1167 46

The development of peptide drugs and therapeutic proteins is limited by the poor permeability and the selectivity of the cell membrane. There is a growing effort to circumvent these problems by designing strategies to deliver full-length proteins into a large number of cells. A series of small protein domains, termed protein transduction domains (PTDs), have been shown to cross biological membranes efficiently and independently of transporters or specific receptors, and to promote the delivery of peptides and proteins into cells. TAT protein from human immunodeficiency virus (HIV-1) is able to deliver biologically active proteins in vivo and has been shown to be of considerable interest for protein therapeutics. Similarly, the third alpha-helix of Antennapedia homeodomain, and VP22 protein from herpes simplex virus promote the delivery of covalently linked peptides or proteins into cells. However, these PTD vectors display a certain number of limitations in that they all require crosslinking to the target peptide or protein. Moreover, protein transduction using PTD-TAT fusion protein systems may require denaturation of the protein before delivery to increase the accessibility of the TAT-PTD domain. This requirement introduces an additional delay between the time of delivery and intracellular activation of the protein. In this report, we propose a new strategy for protein delivery based on a short amphipathic peptide carrier, Pep-1. This peptide carrier is able to efficiently deliver a variety of peptides and proteins into several cell lines in a fully biologically active form, without the need for prior chemical covalent coupling or denaturation steps. In addition, this peptide carrier presents several advantages for protein therapy, including stability in physiological buffer, lack of toxicity, and lack of sensitivity to serum. Pep-1 technology should be extremely useful for targeting specific protein-protein interactions in living cells and for screening novel therapeutic proteins.
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PMID:A peptide carrier for the delivery of biologically active proteins into mammalian cells. 1173 88

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