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Transfer Vector (transfer + vector)

Distribution by Scientific Domains
Life Sciences60%
Medical Sciences40%

Kinds of Transfer Vector

  • gene transfer vector
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    Selected Abstracts

    Parvovirus-mediated gene transfer for the haemophilias

    HAEMOPHILIA, Issue 2002
    C. E. Walsh
    Summary. ,Gene therapy may revolutionize the treatment of haemophilia. Effective gene therapy requires sustained therapeutic levels of factors IX (FIX) and VIII. Adeno-associated virus (AAV) is a member of the parvovirus family, is a nonpathogenic virus with a broad host cell range, and does not provoke a significant immune response upon infection. These favourable characteristics make AAV a suitable gene transfer vector for factor deficient patients. A new understanding of AAV biology coupled with novel AAV vector designs suggest that the goal of effective gene transfer is within reach. We review here recent advances in AAV vectors used for gene transfer of the haemophilias. [source]

    Chimeric HIV-1 and HIV-2 lentiviral vectors with added safety insurance,

    JOURNAL OF MEDICAL VIROLOGY, Issue 2 2007
    Geetanjali Sachdeva
    Abstract Lentiviruses are unique in their ability to infect both dividing and non-dividing cells. This makes the vectors derived from them particularly useful for gene transfer into non-dividing cells, including stem cells. Lentiviral vectors are becoming the vectors of choice for si/shRNA delivery. The utility of the lentiviral vectors will be enhanced if additional elements of safety are built into their design. One safety concern is the generation of replication competent virus by recombination. We reasoned that HIV-1 and HIV-2 hybrid or chimeric lentiviral vectors will have added safety insurance in this regard. This is based on the premise that HIV-1 and HIV-2 are dissimilar enough in sequence to curtail recombination, yet similar enough to complement functionally. For hybrid vectors, we found that both HIV-1 and HIV-2 transfer vector RNAs could be packaged to equivalent titer by the HIV-1 packaging machinery. However, HIV-2 packaging machinery was unable to package HIV-1 transfer vector as well as it did HIV-2 transfer vector. This non-reciprocacity suggested that the requirement for HIV-2 vectors was more stringent and that for HIV-1 vectors more promiscuous. When the HIV-1 transfer vector was packaged with the chimeric packaging construct where the leader-gag region of HIV-2 was replaced with that of HIV-1 packaging construct, the titer of the vector went up. This suggests that at least some of the determinants of specificity for vector assembly reside in the leader-gag region. Incorporation of central polypurine tract (cPPT) and woodchuck post-transcriptional enhance element (WPRE) into the HIV-2 vectors had only modest effect on vector titer. Thus, chimeric lentiviral vectors with added safety features can be designed without compromising transduction efficiency. J. Med. Virol. 79:118,126, 2007. © 2006 Wiley-Liss, Inc. [source]

    Tight control of transgene expression by lentivirus vectors containing second-generation tetracycline-responsive promoters

    THE JOURNAL OF GENE MEDICINE, Issue 6 2005
    Krzysztof Pluta
    Abstract Background The goal of this study was to design improved regulatable lentivirus vector systems. The aim was to design tetracycline (tet)-regulatable lentivirus vectors based on the Tet-on system displaying low background expression in the absence of the doxycycline (DOX) inducer and high transgene expression levels in the presence of DOX. Methods We constructed a binary lentivirus vector system that is composed of a self-inactivating (SIN) lentivirus vector bearing inducible first- or second-generation tet-responsive promoter elements (TREs) driving expression of a transgene and a second lentivirus vector encoding a reverse tetracycline-controlled transactivator (rtTA) that activates transgene expression from the TRE in the presence of DOX. Results We evaluated a number of different rtTAs and found rtTA2S -M2 to induce the highest levels of transgene expression. Regulated transgene expression was stable in human breast carcinoma cells implanted into nude mice for up to 11 weeks. In an attempt to minimize background expression levels, the chicken ,-globin cHS4 insulator element was cloned into the 3, long terminal repeat (LTR) of the transgene transfer vector. The cHS4 insulator element reduced background expression but expression levels following DOX addition were lower than those observed with vectors lacking an insulator sequence. In a second strategy, vectors bearing second-generation TREs harboring repositioned tetracycline operator elements were used. Such vectors displayed greatly reduced leakiness in the absence of DOX and induced transgene expression levels were up to 522-fold above those seen in the absence of DOX. Conclusions Inducible lentivirus vectors bearing insulators or second-generation TREs will likely prove useful for applications demanding the lowest levels of background expression. Copyright © 2005 John Wiley & Sons, Ltd. [source]

    Differential Chemokine and Chemokine Receptor Gene Induction by Ischemia, Alloantigen, and Gene Transfer in Cardiac Grafts

    AMERICAN JOURNAL OF TRANSPLANTATION, Issue 10 2003
    Dongmei Chen
    Transplantation of allogeneic grafts presents several challenges to the innate and adaptive immune systems including chemokine leukocyte recruitment, activation, and effector function. We defined the chemokines and receptors induced by the transplant procedure/ischemia injury, alloantigen and gene transfer vector administration in murine cardiac grafts. E1, E3 deleted AdRSV,gal was transferred into grafts at the time of transplantation, grafts were harvested after 1,14 days, and a pathway-specific cDNA array was used to evaluate the levels of 67 chemokine and chemokine receptor genes. Transplantation resulted in ischemic injury and induction of a number of similar genes in both the syngeneic and allogeneic grafts, such as CXCL1 and CXCL5, which increased dramatically on day 1 and returned rapidly to baseline in the syngeneic grafts. Alloantigen stimulated the adaptive immune response and induced the presence of more inflammatory genes within the grafts, particularly at later time points. The adenovirus vector induced a broader panel of genes, among them potent inflammatory chemokines CXCL9 and CXCL10, that are induced earlier or more strongly compared with alloantigen stimulation alone. As alloantigen and adenovirus vectors both induce similar sets of genes, targeting these molecules may not only inhibit alloimmunity, but also enhance the utility of the gene transfer vector. [source]

    Inflammatory cytokine regulation of transgene expression in human fibroblast-like synoviocytes infected with adeno-associated virus

    ARTHRITIS & RHEUMATISM, Issue 7 2006
    Russell S. Traister
    Objective An ideal gene transfer vector for chronic inflammatory diseases such as rheumatoid arthritis (RA) would provide local transgene expression only when the disease is active. To determine whether adeno-associated virus (AAV) possesses this ability, the effects of inflammatory cytokines on transgene expression were evaluated in human RA fibroblast-like synoviocytes (FLS). Methods Human FLS were infected with AAV in the presence or absence of inflammatory cytokines or synovial fluid obtained from patients with RA. Transgene expression was monitored by either enzyme-linked immunosorbent assay or flow cytometry. Transgene messenger RNA (mRNA) was measured by real-time quantitative reverse transcription,polymerase chain reaction. Results Inflammatory cytokines increased transgene expression in FLS by up to 60-fold. Synovial fluid from patients with RA, but not from patients without arthritis, was also able to increase expression in synoviocytes. Protein expression correlated with transgene mRNA levels. The enhanced expression required the continued presence of cytokines because, upon removal, transgene expression returned to baseline levels. Expression could be repeatedly reinduced by reexposure to cytokines. The effect was not promoter specific and was demonstrated to be phosphatidylinositol 3-kinase,dependent. Conclusion These results suggest that expression of a therapeutic transgene can be controlled by the presence of inflammation following AAV gene transfer, making it an attractive vector for chronic inflammatory diseases such as RA. [source]

    Indications for cell stress in response to adenoviral and baculoviral gene transfer observed by proteome profiling of human cancer cells

    ELECTROPHORESIS, Issue 11 2010
    Christopher Gerner
    Abstract Gene transfer to cultured cells is an important tool for functional studies in many areas of biomedical research and vector systems derived from adenoviruses and baculoviruses are frequently used for this purpose. In order to characterize how viral gene transfer vectors affect the functional state of transduced cells, we applied 2-D PAGE allowing quantitative determination of protein amounts and synthesis rates of metabolically labeled cells and shotgun proteomics. Using HepG2 human hepatoma cells we show that both vector types can achieve efficient expression of green fluorescent protein, which accounted for about 0.1% of total cellular protein synthesis 72,h after transduction. No evidence in contrast was found for expression of proteins from the viral backbones. With respect to the host cell response, both vectors induced a general increase in protein synthesis of about 50%, which was independent of green fluorescent protein expression. 2-D PAGE autoradiographs identified a 3.6-fold increase of ,-actin synthesis in adenovirus transduced cells. In addition shotgun proteomics of cytoplasmic and nuclear extract fractions identified a slight induction of several proteins related to inflammatory activation, cell survival and chromatin function by both virus types. These data demonstrate that commonly used gene transfer vectors induce a response reminiscent of stress activation in host cells, which needs to be taken into account when performing functional assays with transduced cells. [source]

    Efficient hepatocyte engraftment and long-term transgene expression after reversible portal embolization in nonhuman primates,

    HEPATOLOGY, Issue 3 2009
    Ibrahim Dagher
    The feasibility of ex vivo gene therapy as an alternative to liver transplantation for the treatment of liver metabolic diseases needs to be analyzed in large animal models. This approach requires appropriate gene transfer vectors and effective hepatocyte engraftment. Lentiviral vectors have the ability to transduce nondividing differentiated cells, such as hepatocytes, and portal vein occlusion increases hepatocyte engraftment. We investigated whether reversible portal vein embolization combined with ex vivo lentivirus-mediated gene transfer is an effective approach for successful hepatocyte engraftment in nonhuman primates and whether the transgene remains expressed in the long term in transplanted hepatocytes in situ. Simian hepatocytes were isolated after left lobe resection, and the left and right anterior portal branches of animals were embolized with absorbable material. Isolated hepatocytes were labeled with Hoechst dye or transduced in suspension with lentiviruses expressing green fluorescent protein under the control of the human apolipoprotein A-II promoter and transplanted via the inferior mesenteric vein. The whole procedure was well tolerated. The embolized liver was revascularized within 2 weeks. The volume of nonembolized liver increased from 38.7% ± 0.8% before embolization to 55.9% ± 1% after embolization and hepatocytes significantly proliferated (10.5% ± 0.4% on day 3 after embolization). Liver repopulation after transplantation with Hoechst-labeled hepatocytes was 7.4% ± 1.2%. Liver repopulation was 2.1% ± 0.2% with transduced hepatocytes, a proportion similar to that obtained with Hoechst-labeled cells, given that the mean transduction efficacy of simian hepatocyte population was 34%. Transgene expression persisted at 16 weeks after transplantation. Conclusion: We have developed a new approach to improve hepatocyte engraftment and to express a transgene in the long term in nonhuman primates. This strategy could be suitable for clinical applications. (HEPATOLOGY 2009.) [source]

    A new inducible adenoviral expression system that responds to inflammatory stimuli in vivo

    THE JOURNAL OF GENE MEDICINE, Issue 12 2006
    Gang Cai
    Abstract Background Gene transfer using inducible promoters, which control expression of transgenic proteins in response to physiological conditions, may have significant advantages. In this study, we tried to achieve an inducible adenoviral expression system for physiologically responsive gene therapy of autoimmune or inflammatory diseases. Methods A luciferase reporter vector with a hybrid promoter containing the human IL-1, enhancer region (,3690 to , 2720) and the human CIITA promoter IV (,399 to + 2) was constructed. A replication-deficient adenovirus was engineered with luciferase controlled by the IL1,/CIITApIV promoter (Ad-IL1,/CIITApIV-Luc). The reporter vector or adenovirus was transfected to C57Bl/6 myeloid dendritic cells (DCs), RAW264.7, and Hep G2 to study the in vitro characteristics of this hybrid promoter. An inflammation model was prepared by injecting lipopolysaccharide (LPS) into Balb/c mice intraperitoneally (i.p.), and infected with Ad-IL1,/CIITApIV-Luc or Ad-CMV-Luc to study the in vivo characteristics of the IL1,/CIITApIV promoter. Results The IL1,/CIITApIV hybrid promoter has pronounced promoter activity, broad-range responsiveness to cytokines or LPS, and can be rechallenged after first induction. In the inflammation model, IL1,/CIITApIV could drive hepatic luciferase expression increasedly rapidly after LPS challenge and in a LPS dose-dependent manner. Conclusions Using the IL1,/CIITApIV hybrid promoter in gene transfer vectors may make it possible to produce transgenic proteins in vivo in direct relationship with the intensity and duration of an individual's status. By providing endogenously controlled production of transgenic proteins, this approach might limit the severity of autoimmune or inflammatory response without interfering with the beneficial components of host defense and immunity. Copyright © 2006 John Wiley & Sons, Ltd. [source]

    Cross-species transfer of viruses: implications for the use of viral vectors in biomedical research, gene therapy and as live-virus vaccines

    THE JOURNAL OF GENE MEDICINE, Issue 10 2005
    Derrick Louz
    Abstract Summary All living organisms are continuously exposed to a plethora of viruses. In general, viruses tend to be restricted to the natural host species which they infect. From time to time viruses cross the host-range barrier expanding their host range. However, in very rare cases cross-species transfer is followed by the establishment and persistence of a virus in the new host species, which may result in disease. Recent examples of viruses that have crossed the species barrier from animal reservoirs to humans are hantavirus, haemorrhagic fever viruses, arboviruses, Nipah and Hendra viruses, avian influenza virus (AI), monkeypox virus, and the SARS-associated coronavirus (SARS-CoV). The opportunities for cross-species transfer of mammalian viruses have increased in recent years due to increased contact between humans and animal reservoirs. However, it is difficult to predict when such events will take place since the viral adaptation that is needed to accomplish this is multifactorial and stochastic. Against this background the intensified use of viruses and their genetically modified variants as viral gene transfer vectors for biomedical research, experimental gene therapy and for live-vector vaccines is a cause for concern. This review addresses a number of potential risk factors and their implications for activities with viral vectors from the perspective of cross-species transfer of viruses in nature, with emphasis on the occurrence of host-range mutants resulting from either cell culture or tropism engineering. The issues are raised with the intention to assist in risk assessments for activities with vector viruses. Copyright © 2005 John Wiley & Sons, Ltd. [source]

    Rational development of a HIV-1 gene therapy vector

    THE JOURNAL OF GENE MEDICINE, Issue 10 2003
    D. S. Anson
    Abstract Background HIV-1 provides an attractive option as the basis for gene transfer vectors due to its ability to stably transduce non-cycling cell populations. In order to fully utilise the promise of HIV-1 as a vector it is important that the effects of viral cis sequence elements on vector function are carefully delineated. Methods In this study we have systematically evaluated the effect of various cis elements from the HIV-1 YU-2 genome that have been implicated as either affecting vector performance, or HIV-1 replication, on the efficiency of vector production (titre and infectivity). As a measure of the relative safety of vectors their propensity to inadvertently transfer the gagpol gene to transduced cells was assessed. Results Sequences that were found to increase vector titre were from the 5, end of the gag gene, from the 5, and 3, ends of the env gene, from immediately upstream of the polypurine tract, and the central polypurine tract. The substitution of the HIV-1 RRE with heterologous RNA transport elements, or the deletion of the RRE, resulted in greatly reduced vector titres. RNA analysis suggested that the role of the Rev/RRE system extends beyond simply acting as an RNA nuclear export signal. The relative safety of different vector designs was compared and an optimal construct selected. Conclusions Based on our results we have constructed a vector that is both more efficient, and has better safety characteristics, than the widely used pHR, HIV-1 vector construct. Copyright © 2003 John Wiley & Sons, Ltd. [source]