UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The HIV TAT protein contains an 11-amino-acid protein transduction domain which acts as a "Trojan peptide": Linked to other macromolecules, it carries them across cellular membranes. Here, we demonstrate for the first time that fusion of the TAT protein transduction domain to an antiapoptotic protein represents a feasible technique to rescue neurons from apoptotic degeneration in vitro and in vivo. When fused to the antiapoptotic protein Bcl-X(L), it mediated uptake of the fusion protein into neurons. Once inside the cells, TAT-Bcl-X(L) was stable for many days and maintained its antiapoptotic function. It completely blocked low-potassium-induced apoptosis of cerebellar granule cells in vitro. In vivo, 24% of mouse retinal ganglion cells were prevented from undergoing retrograde neuronal apoptosis caused by optic nerve lesion when TAT-Bcl-X(L) was intraocularly injected. The application of TAT fusion proteins may in the future greatly facilitate neuroprotective therapy strategies for neurological disorders.
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PMID:Inhibition of neuronal apoptosis in vitro and in vivo using TAT-mediated protein transduction. 1235 49

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.
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PMID:Correlation between hydrophobic properties and efficiency of carrier-mediated membrane transduction and apoptosis of a p53 C-terminal peptide. 1241 61

It has been difficult to transduce primary cultures of bone cells with proteins of interest. Here, we report the development and validation of a new technology for transduction of osteoblasts and osteoclasts with peptides and moderately sized proteins. Fusion proteins between TAT, an 11 amino acid Arg-rich sequence derived from the HIV protein, and either hemagglutinin or calcineurin Aalpha were synthesized and purified. Exposure of osteoblasts and osteoclasts in primary culture to either TAT-HA or TAT-calcineurin Aalpha resulted in a rapid (within 10 min) intracellular movement of the fusion protein evident on co-immunostaining. Almost 99% of cells were transduced and the fusion protein was retained in approximately 50% of the cells for up to 5 days. TAT did not abolish the functionality of calcineurin Aalpha; the fusion protein stimulated osteoblast differentiation and inhibited osteoclastic resorption. We expect that our studies will provide a firm basis for the future development of TAT fusion proteins for critical molecules involved in bone cell differentiation and function.
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PMID:Transduction of TAT fusion proteins into osteoclasts and osteoblasts. 1244 31

Cell penetrating peptides (CPPs) have been postulated to carry macromolecules across cell plasma membranes without the need of receptors, transporters, endocytosis or any energy-consuming mechanism. We developed an assay to study lipid bilayer permeation of CPPs. HIV-1 TAT peptides were conjugated to N-(4-carboxy-3-hydroxyphenyl)maleimide (SAM) and incubated with Tb(3+)-containing liposomes. Upon chelation of Tb(3+) by an aromatic carboxylic acid, the fluorescence of Tb(3+) increases many fold. The CPP TAT(44-57)-SAM and TAT(37-53)-SAM, as a negative control, were unable to enter liposomes consisting of phosphatidylcholine (PC) or a mix of PC, negatively charged lipids and cholesterol. In parallel, cell entry of fluorescein-labeled TAT peptides was studied using confocal laser scanning microscopy (CLSM). TAT(44-57)-fluorescein did not enter Madin Darby canine kidney (MDCK) cells with intact plasma membranes but accumulated at their basal side. Only cells with impaired plasma membranes, as identified by nuclear staining with ethidium homodimer-1 (EthD-1), showed accumulation of TAT(44-57). Our findings change the perspectives of the potential use of TAT peptides as carriers for intracellular targeting. SAM- and fluorescein-labeled TAT(44-57) cannot penetrate lipid bilayers and intact plasma membranes of MDCK cells, respectively.
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PMID:No entry for TAT(44-57) into liposomes and intact MDCK cells: novel approach to study membrane permeation of cell-penetrating peptides. 1254 77

Incorporation of an 11 amino acid region of the HIV TAT protein transduction domain (TAT PTD) into proteins facilitates rapid, efficient entry into cells. We previously showed that rTAT-PTD-OVA-transduced dendritic cells (DC) stimulated antigen (Ag)-specific CTL and Th cells, and vaccinated against OVA-expressing tumors. Here we studied B16 melanoma in C57BL/6 mice, using murine tyrosinase-related protein 2 (Trp2) as a candidate tumor Ag. We produced a 472-amino acid N-terminal fragment of Trp2 protein (rTrp2Delta) with or without PTD. Although PTD-deficient rTrp2Delta was ineffective, mice given rTAT-PTD-Trp2Delta-transduced DC were efficiently primed for Trp2(180-188) peptide-specific and B16-reactive CTL. In 58% of such mice, growth of melanomas was prevented. Trp2(180-188) peptide-pulsed DC protected 35% of recipients, and irradiated GM-CSF-producing B16 cells protected 75%. rTAT-PTD-Trp2Delta-transduced DC induced a more vigorous memory response to B16 rechallenge than the other regimens, and protected 30% of recipients from progressive tumor development in treatment studies. In this setting, Trp2 peptide-treated DC protected 20% and irradiated GM-CSF-producing cells protected 0%. Both tumor prevention and tumor treatment were CD8(+) T cell dependent. Vaccination with rTAT-PTD-Trp2Delta-transduced DC induced a robust CTL response and durable anti-melanoma immunity. This approach should be clinically applicable, and offers theoretical and practical advantages to those that are in current use.
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PMID:Dendritic cells transduced with TAT protein transduction domain-containing tyrosinase-related protein 2 vaccinate against murine melanoma. 1267 50

Primary hematopoietic cells are relatively refractory to DNA transfection methodologies. This is particularly so when they are quiescent or terminally differentiated and no longer able to divide. However, whole proteins can be introduced into such cells by protein transduction. We have modified the protein transduction domain (PTD) from the HIV-TAT protein used by other investigators. Using green fluorescent protein (GFP) as a reporter, we show that this new sequence allows more efficient transduction of recombinant fusion protein into a variety of hematopoietic cells tested compared with the native HIV TAT domain. This is true for peripheral blood CD34+ cells, dendritic cells, granulocytes, monocytes and lymphocytes all of which are quiescent or terminally differentiated. Furthermore, we were able to transduce myeloblasts from patients with acute myeloid leukemia (AML). In all cell types tested transduction efficiency was almost 100%. Transduction is maximal 15-30 s after addition of PTD or TAT-GFP fusion proteins as tested on quiescent T lymphocytes. This method will allow us to study of the effects of a variety of gene products in cell types that were previously resistant to gene transfection studies.
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PMID:High efficiency protein transduction of quiescent and proliferating primary hematopoietic cells. 1270 9

Delivery of biologically active peptides into human polymorphonuclear neutrophils (PMNs) has implications for studying cellular functions and may be therapeutically relevant. The transcription factor nuclear factor-kappaB (NF-kappaB) regulates the expression of multiple genes controlling inflammation, proliferation, and cell survival. PMNs play a crucial role in first-line defense. Targeting NF-kappaB in these cells may promote apoptosis and therefore facilitate resolution of inflammation. We used an 11-amino acid sequence NEMO-binding domain (NBD) that selectively inhibits the IKKgamma (NEMO)/IKKbeta interaction, preventing NF-kappaB activation. An HIV-TAT sequence served as a highly effective transducing shuttle. We show that lipopolysaccharide (LPS), granulocyte-macrophage colony-stimulating factor (GM-CSF), and dexamethasone (DEX) significantly reduced apoptosis after 20 hours. LPS, but not GM-CSF or DEX, activated NF-kappaB as shown by IkappaBalpha degradation, NF-kappaB DNA binding, and transcriptional activity. The TAT-NBD blocked LPS-induced NF-kappaB activation and NF-kappaB-dependent gene expression. TAT-NBD accelerated constitutive PMN apoptosis dose dependently and abrogated LPS-delayed apoptosis. These results provide a proof of principle for peptide delivery by TAT-derived protein transduction domains to specifically inhibit NF-kappaB activity in PMNs. This strategy may help in controlling various cellular functions even in short-lived, transfection-resistant primary human cells.
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PMID:Inhibition of NF-kappaB by a TAT-NEMO-binding domain peptide accelerates constitutive apoptosis and abrogates LPS-delayed neutrophil apoptosis. 1276 40

Protein transduction methods have been developed utilizing the delivery of peptides and proteins into eukaryotic cells by the protein transduction domain (PTD). Initially, the PTD domain was developed from the sequences from HIV-1 TAT, HSV VP-22 and antennapedia homeoprotein. Recently, several novel PTDs were developed and has been used as a valuable strategy for transduction of therapeutic protein. We developed a novel, high efficiency PTD (11 arginine) based on the TAT sequence and used 11R for the regulation of intracellular signal cascades. PTD can deliver proteins and other bioactive compounds and therefore serves as a very useful strategy for the development of therapeutic agents.
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PMID:[Protein transduction by poly-arginine]. 1283 37

Protein transduction domains (PTD), such as the HIV TAT and the herpes simplex virus VP22 proteins, are reported to translocate across the membranes of mammalian cells. The mechanism of PTD membrane translocation has largely remained elusive, but recent studies suggest that the reported PTD translocation is due to a fixation artifact. We have constructed and expressed the PTDs VP22, TAT, polyarginine, and polylysine fused to the green fluorescent protein to visualize these proteins in both living and fixed cells. The investigated PTDs strongly adhered to the surface of living cells and were internalized by constitutive endocytosis. No cytosolic or nuclear import of the proteins was detected. In contrast, the PTD-GFP fusion proteins were redistributed to the cytosol and nucleus directly after fixation. Our findings suggest that the PTDs only mediate cell surface adherence, a property shared with many other positively charged macromolecules. The cell surface adherence results in endocytosis and accumulation of proteins in endosomes. We suggest that the biological effects observed for PTD fusion proteins are due to cell surface interactions and internalization of the proteins into cells by classical endocytosis.
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PMID:Cell surface adherence and endocytosis of protein transduction domains. 1284 37

Cell-penetrating peptides (CPPs) traverse cell membranes of cultured cells very efficiently by a mechanism not yet identified. Recent theories for the translocation suggest either the binding of the CPPs to extracellular glycosaminoglycans or the formation of inverted micelles with negatively charged lipids. In the present study, the binding of the protein transduction domains (PTD) of human (HIV-1) and simian immunodeficiency virus (SIV) TAT peptide (amino acid residues 47-57, electric charge z(p) = +8) to membranes containing various proportions of negatively charged lipid (POPG) is characterized. Monolayer expansion measurements demonstrate that TAT-PTD insertion between lipids requires loosely packed monolayer films. For densely packed monolayers (pi > 29 mN/m) and lipid bilayers, no insertion is possible, and binding occurs via electrostatic adsorption to the membrane surface. Light scattering experiments show an aggregation of anionic lipid vesicles when the electric surface charge is neutralized by TAT-PTD, the observed stoichiometry being close to the theoretical value of 1:8. Membrane binding was quantitated with isothermal titration calorimetry and three further methods. The reaction enthalpy is Delta H degrees approximately equal to -1.5 kcal/mol peptide and is almost temperature-independent with Delta C(p) degrees approximately 0 kcal/(mol K), indicating equal contributions of polar and hydrophobic interactions to the reaction heat capacity. The binding of TAT-PTD to the anionic membrane is described by an electrostatic attraction/chemical partition model. The electrostatic attraction energy, calculated with the Gouy-Chapman theory, accounts for approximately 80% of the binding energy. The overall binding constant, K(app), is approximately 10(3)-10(4) M(-1). The intrinsic binding constant (K(p)), corrected for electrostatic effects and describing the partitioning of the peptide between the lipid-water interface and the membrane, is small and is K(p) approximately 1-10 M(-1). Deuterium and phosphorus-31 nuclear magnetic resonance demonstrate that the lipid bilayer remains intact upon TAT-PTD binding. The NMR data provide no evidence for nonbilayer structures and also not for domain formation. This is further supported by the absence of dye efflux from single-walled lipid vesicles. The electrostatic interaction between TAT-PTD and anionic phosphatidylglycerol is strong enough to induce a change in the headgroup conformation of the anionic lipid, indicating a short-lived but distinct correlation between the TAT-PTD and the anionic lipids on the membrane outside. TAT-PTD has a much lower affinity for lipid membranes than for glycosaminoglycans, making the latter interaction a more probable pathway for CPP binding to biological membranes.
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PMID:Protein transduction domains of HIV-1 and SIV TAT interact with charged lipid vesicles. Binding mechanism and thermodynamic analysis. 1288 53

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