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)

A technology has recently been developed that allows for the rapid transduction of full-length functionally active proteins into intact tissue through intravenous injection and into cultured cells. This technology involves the fusion of an 11 amino acid sequence of the HIV TAT protein to the protein of interest. In the current investigation, we determined whether functionally active TAT fusion proteins could be transduced into intact corneas by topical application. TAT-beta-galactosidase was purified from bacterial cells and applied in serial dilutions (12.5-250 nm) to cultured epithelial cells for 5 or 15 min. In addition, enucleated globes and excised corneas with or without a central 3-mm epithelial debridement were incubated with TAT-beta-galactosidase for 1 or 2 hr. Excised corneas were allowed to heal in organ culture. Transduction of active beta-galactosidase was detected by incubating the cells or corneas with X-gal. TAT-beta-galactosidase was transduced into nearly all cultured cells in a concentration-dependent manner. When TAT-beta-galactosidase was topically applied to intact corneas, only the most superficial layer of epithelium was highly transduced. When the superficial layer was removed with nitrocellulose, two to four layers of cells were transduced. In corneas with a central debridement, epithelial cells at the edge of the debridement were transduced as well as the stromal cells subjacent to the debridement. Active beta-galactosidase was maintained at least 1 day in organ culture. No X-gal reaction was seen in either cells or corneas not incubated with TAT-beta-galactosidase. Functionally active proteins can be efficiently transduced into corneal epithelial and stromal cells using TAT fusion protein technology. The intact epithelium provides a barrier to penetration of TAT proteins. This barrier can be overcome by disrupting the epithelium. TAT-mediated protein transduction may be extremely useful in studies of corneal wound healing and homeostasis.
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PMID:Transduction of functionally active TAT fusion proteins into cornea. 1505 80

Protein transduction domains (PTDs) have been used increasingly to deliver biologically active agents to a variety of cell types in vitro and in vivo. To define the most effective PTDs for transducing hematopoietic cells, we have screened a panel of PTD peptides in human CD34(+) cells for delivery of a 60-kd marker protein and assessed its impact on phenotypic maintenence in vitro. Compared to the HIV-TAT peptide, most peptide complexes displayed high efficiency in transducing the CD34(+) cells, except for those based on shorter peptides (4R, 4K, and 5RQ). In particular, the arginine homopolymers including 8R, 10R, and 12R, were internalized by the cells to a greater extent than the other PTDs. Transduction was significantly potentiated by preincubation of cells with dextran sulfate. Importantly, colony forming ability and CD34(+) CD38(-) primitive phenotype were not significantly altered in the presence of these peptides during a short-term liquid culture. Together, these data suggest the potential usefulness of arginine homopolymers in hematopoietic stem and progenitor cell manipulations.
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PMID:Evaluation of peptide-mediated transduction in human CD34+ cells. 1505 66

A novel carrier system that originates from membrane shuttling proteins such as the Drosophila homeobox protein Antennapedia, the HIV-1 transcriptional factor TAT and VP22 from HSV-1 has advantages for targeted delivery compared with standard translocation techniques. This transport system is mediated by so-called cell-penetrating peptides, which consist of short peptide sequences that rapidly translocate large molecules into the cell interior in a seemingly energy- and receptor-independent manner. Cell-penetrating peptides have low toxicity and a high yield of delivery and in the future might become a widely used tool in the field of gene regulation.
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PMID:The use of cell-penetrating peptides as a tool for gene regulation. 1547 18

Gene silencing mediated by RNA interference (RNAi) was first discovered in Caenorhabditis elegans, and was subsequently recognized in various other organisms. In mammalian cells, RNAi can be induced by small interfering RNAs (siRNAs). In earlier studies, our group developed a vector-based system for expression of siRNA under control of a polymerase III promoter, the U6 promoter, which can induce RNAi in living cells. We here describe a system for controlling the U6 promoter-driven expression of siRNA using the Cre-loxP recombination system. We constructed a 'Cre-On' siRNA expression vector which could be switched on upon excision catalyzed by Cre recombinase, which was delivered to cells directly from the medium as a fusion protein. An examination of the effectiveness of RNAi against a reporter gene revealed that addition of TAT-NLS-Cre (where NLS is a nuclear localization signal and TAT is a peptide of 11 amino acids derived from HIV) to the medium resulted in plasmid recombination, generation of siRNA and suppression of reporter activity. This system should allow us to induce RNAi in a spatially, temporally, cell type-specifically or tissue-specifically controlled manner and potentiate the improved application of RNAi in both an experimental and a therapeutic context.
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PMID:Control of siRNA expression using the Cre-loxP recombination system. 1510 81

Apactin is an 80-kDa type I membrane glycoprotein derived from pro-Muclin, a precursor that also gives rise to the zymogen granule protein Muclin. Previous work showed that apactin is efficiently removed from the regulated secretory pathway and targeted to the actin-rich apical plasma membrane of the pancreatic acinar cell. The cytosolic tail (C-Tail) of apactin consists of 16 amino acids, has Thr casein kinase II and Ser protein kinase C phosphorylation sites, and a C-terminal PDZ-binding domain. Secretory stimulation of acinar cells causes a decrease in Thr phosphorylation and an increase in Ser phosphorylation of apactin. Fusion peptides of the C-Tail domain pulldown actin, ezrin, and EBP50/NHERF in a phosphorylation-dependent manner. HIV TAT-C-Tail fusion peptides were used as dominant negative constructs on living pancreatic cells to study effects on the actin cytoskeleton. During secretory stimulation, TAT-C-Tail-Thr/Asp phosphomimetic peptide caused an increase in actin-coated zymogen granules at the apical surface, while TAT-C-Tail-S/D phosphomimetic peptide caused a broadening of the actin cytoskeleton. These data indicate that stimulation-mediated Thr dephosphorylation allows decreased association of apactin with EBP50/NHERF and fosters actin remodeling to coat zymogen granules. Stimulation-mediated Ser phosphorylation increases apactin association with the actin cytoskeleton, maintaining tight bundling of actin microfilaments at the apical surface. Thus, apactin is involved in remodeling the apical cytoskeleton during regulated exocytosis in a manner controlled by phosphorylation of the apactin C-Tail.
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PMID:Apactin is involved in remodeling of the actin cytoskeleton during regulated exocytosis. 1514 79

To elucidate the role of enhanced phosphoinositide-3-kinase (PI3-kinase) activity in memory, a synthetic phosphopeptide (TAT-YPMDM) containing the p85 regulatory subunit receptor-binding motif (YXXM) coupled to the cell transduction domain of HIV-TAT protein was employed. This phosphopeptide bound the p85 subunit of PI3-kinase, and was internalized by both granule and pyramidal neurons when injected into the hippocampus. Increased lipid kinase activity and enhanced phosphorylation of the PI3-kinase substrates Akt (protein kinase B) and ribosomal S6 kinase were associated with TAT-YPMDM administration. Bilateral infusion of the phosphopeptide into the dorsal hippocampus after training improved performance in three hippocampus-dependent memory tasks: contextual fear conditioning, trace fear conditioning, and the Morris water maze. Both the biochemical and behavioral effects of the TAT-YPMDM phosphopeptide could be blocked by wortmannin. No effect was observed when a nonphosphorylated peptide (TAT-YMDM), or a second, unrelated phosphopeptide (TAT-YPLDL) was utilized. In addition, infusion of the TAT-YPMDM phosphopeptide did not interfere with memory acquisition or 4 hr memory. In addition, pretesting administration did not affect the ability to recall a previously established long-term memory. These findings suggest that stimulation of PI3-kinase activity by phosphorylated receptor fragments containing the YMDM motif augments long-term memory.
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PMID:Performance in long-term memory tasks is augmented by a phosphorylated growth factor receptor fragment. 1521 87

The conjugation of peptides derived from the HIV TAT protein to membrane-impermeant molecules has gained wide acceptance as a means for intracellular delivery. Numerous studies have addressed the mechanism of uptake and kinetics of TAT translocation, but the cytosolic concentrations and bioavailability of the transported cargo have not been well-characterized. The current paper utilizes a microanalytical assay to perform quantitative single-cell measurements of the concentration and accessibility of peptide-based substrates for protein kinase B (PKB) and Ca(2+)/calmodulin-activated kinase II. The substrate peptide and TAT were conjugated through a releasable linker, either a disulfide or photolabile bond. Free substrate peptide concentrations of approximately 10(-20)-10(-18) moles were attainable in a cell when substrates were delivered utilizing these conjugates. The substrate peptides delivered as a disulfide conjugate were often present in the cytosol as several oxidized forms. Brief exposure of cells loaded with the photolabile conjugates to UVA light released free substrate peptide into the cytosol. Substrate peptide delivered by either conjugate was accessible to cytosolic kinase as demonstrated by the efficient phosphorylation of the peptide when the appropriate kinase was active. After incubation of the conjugated substrate with cells, free, kinase-accessible substrate was detectable in less than 30 min. Release of the majority of loaded substrate peptide from sequestered organelles occurred within 1 h. The utility of the photocleavable conjugates was demonstrated by measuring the activation of PKB in 3T3 cells after addition of varying concentrations of platelet-derived growth factor.
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PMID:Characterization of TAT-mediated transport of detachable kinase substrates. 1522 64

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.
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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.
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PMID:Targeting hypoxic cancer cells with a protein prodrug is effective in experimental malignant ascites. 1528 74

Viability of isolated islets is one of the main obstacles limiting islet transplantation success. It has been reported that overexpression of Bcl-2/Bcl-XL proteins enhances islet viability. To avoid potential complications associated with long-term expression of anti-apoptotic proteins, we investigated the possibility of delivering Bcl-XL or its anti-apoptotic domain BH4 to islets by protein transduction. Bcl-XL and BH4 molecules were fused to TAT/PTD, the 11-aa cell penetrating peptide from HIV-1 transactivating protein, generating TAT-Bcl-XL and TAT-BH4, respectively. Transduction efficiency was assessed by laser scanning confocal microscopy of live islets. Biological activity was tested as the ability to protect NIT-1 insulinoma cell line from death induced by staurosporine or serum deprivation. Spontaneous caspase activation in human islets and cytotoxicity caused by IL-1beta were significantly reduced in the presence of TAT-Bcl-XL and TAT-BH4. We conclude that both TAT proteins are biologically active after transduction and could be an asset in the improvement of islet viability.
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PMID:Delivery of Bcl-XL or its BH4 domain by protein transduction inhibits apoptosis in human islets. 1536 75

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