Transduction efficiency of MLV but not of HIV-1 vectors is pseudotype dependent on human primary T lymphocytes

Mühlebach, Michael D.; Schmitt, Isabel; Steidl, Stefanie; Stitz, Jörn; Schweizer, Matthias; Blankenstein, Thomas; Cichutek, Klaus; Uckert, Wolfgang

doi:10.1007/s00109-003-0491-2

Cited by 18 publications

(9 citation statements)

References 51 publications

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“…Lymphocytes were treated with either PHA plus IL-2 or with IL-7, which induce cell proliferation or G 0 /G 1b transition but induced only marginal cell proliferation under the conditions used here, respectively (4,11). Dividing PHA-IL-2-stimulated lymphocytes were susceptible to transduction with both retroviral vectors, although the percentage of F-MLV-transduced cells was lower than that of HIV-1-transduced cells, as reported by others (26). On the contrary, although IL-7-treated lymphocytes were susceptible to HIV-1 transduction, albeit with variations depending on the donor, they were largely resistant to F-MLV and were transduced at rates below 1% for a multiplicity of infection (MOI) of 25.…”

Section: Transduction Of Primary Gm-csf-derived Human Macrophages Andsupporting

confidence: 71%

Transduction of Nondividing Human Macrophages with Gammaretrovirus-Derived Vectors

Jarrosson-Wuillème

Goujon

Bernaud³

et al. 2006

J Virol

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It is commonly accepted that infection of nondividing cells by gammaretroviruses such as the murine leukemia viruses is inefficient due to their inability to cross the nuclear envelope barrier. Challenging this notion, we now show that human nondividing macrophages display a specific window of susceptibility to transduction with a Friend murine leukemia virus (F-MLV)-derived vector during their differentiation from monocytes. This finding suggests that factors other than the nuclear membrane govern permissiveness to gammaretroviral infection and raises the possibility of using the macrophage tropism of F-MLV in gene therapy.The nuclear envelope poses itself as a barrier between the initial and final phases of the early steps of retroviral infection: that is, between viral genome entry into the cytoplasm and its integration into the host genome in the nucleus. Two basic mechanisms have been proposed for the passage of viral nucleoprotein complexes (called reverse transcription or preintegration complexes [RTCs and PICs, respectively]) (3,7,8,25) through the nuclear membrane: active import through the nuclear pores or passive passage in the nucleus following nuclear membrane disassembly during mitosis. Active nuclear import can occur either through hijacking of the normal cytonucleoplasmic transport machinery or through the induction of distortions that perturb the integrity of the nuclear envelope, as proposed for the human immunodeficiency virus type 1 (HIV-1) Vpr protein (5).Among Retroviridae, lentiviruses such as HIV-1 have developed probably the most efficient way to traverse an intact nuclear membrane, and this results in the broad tropism of HIV-derived lentiviral vectors for most nondividing cells. Although the exact mechanism by which this is accomplished remains to be elucidated, lentiviral PICs appear to be gated through the nuclear pore and a number of viral proteins that compose it have nucleophilic properties, like Vpr, matrix (MA), and integrase (IN). An additional signal for nuclear transport may be provided by a particular single-gap structure determined by the central polypurine tract (cPPT) present on double-stranded proviral DNA (43). However, no consensus has yet been formed as to the importance of each of these elements in driving viral nuclear import. MA, Vpr, and cPPT can be deleted without completely abolishing either nuclear entry or viral infection (6, 9, 30), and the role played by IN nuclear localization signals is still being debated (6).If nuclear localization of certain PIC components is taken as evidence suggesting-but not proving-they may concur in driving the entire viral nucleoprotein complex inside the nucleus, then the ability to infect nondividing cells should hardly be restricted to lentiviruses. Simple retroviruses previously referred to as "oncoretroviruses" should share a similar theoretical ability. For instance, the INs of certain alpharetroviruses are localized in the nucleus (18,19,39), and for gammaretroviruses such as the murine leukemia virus (MLV), clear evidence...

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Section: Transduction Of Primary Gm-csf-derived Human Macrophages Andsupporting

confidence: 71%

Transduction of Nondividing Human Macrophages with Gammaretrovirus-Derived Vectors

Jarrosson-Wuillème

Goujon

Bernaud³

et al. 2006

J Virol

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“…In addition, amphotropic MLV pseudotypes transduced cytokine-mobilized, human peripheral blood CD34+ cells capable of establishing hematopoiesis in immunodeficient mice more efficiently than VSV-G pseudotypes. Work reported by Muhlebach et al [Muhlebach, 2003] revealed that MLV vectors pseudotyped with the MLV 10A1 and the GALV GPs resulted in efficient transduction of preactivated human primary T lymphocytes while pseudotypes bearing the amphotropic MLV, RD114 and VSV-G GPs were less efficient. In contrast, HIV-1 vectors pseudotyped with the same GPs transduced preactivated T lymphocytes with similar efficiencies.…”

Section: Lentiviral Vectors Pseudotyped With Gammaretrovirus Gps Inmentioning

confidence: 98%

Altering the Tropism of Lentiviral Vectors through Pseudotyping

Cronin

Zhang²,

Reiser³

2005

CGT

469

338

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The host range of retroviral vectors including lentiviral vectors can be expanded or altered by a process known as pseudotyping. Pseudotyped lentiviral vectors consist of vector particles bearing glycoproteins (GPs) derived from other enveloped viruses. Such particles possess the tropism of the virus from which the GP was derived. For example, to exploit the natural neural tropism of rabies virus, vectors designed to target the central nervous system have been pseudotyped using rabies virusderived GPs. Among the first and still most widely used GPs for pseudotyping lentiviral vectors is the vesicular stomatitis virus GP (VSV-G), due to the very broad tropism and stability of the resulting pseudotypes. Pseudotypes involving VSV-G have become effectively the standard for evaluating the efficiency of other pseudotypes. This review samples a few of the more prominent examples from the ever-expanding list of published lentiviral pseudotypes, noting comparisons made with pseudotypes involving VSV-G in terms of titer, viral particle stability, toxicity, and host-cell specificity. Particular attention is paid to publications of successfully targeting a specific organ or cell types.

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“…The high transduction efficiency of primary human T cells using the MLV-10A1 pseudotype is based on the usage of both Pit1 and Pit2 for cell entry Miller and Chen, 1996;Uckert et al, 1998). There are contrasting reports with regard to the transduction efficiency of human T cells achieved with the endogenous feline retrovirus RD114 pseudotype (Porter et al, 1996;Onodera et al, 1998;Uckert et al, 2000;Muhlebach et al, 2003;Strom et al, 2003). High transduction efficiencies obtained with the envelope of vesicular stomatitis virus G protein (VSV-G) are most probably due to the use of high multiplicities of infection (MOI).…”

Section: Selecting the Vector Envelopementioning

confidence: 95%

“…High transduction efficiencies obtained with the envelope of vesicular stomatitis virus G protein (VSV-G) are most probably due to the use of high multiplicities of infection (MOI). When VSV-G pseudotyped retrovirus vectors were carefully equilibrated in titer to other pseudotypes transduction efficiency dramatically decreased (Muhlebach et al, 2003). Primary murine T cells are most efficiently transduced by retroviral vectors carrying the ecotropic MLV envelope (Hagani et al, 1999;Engels et al, 2003).…”

Section: Selecting the Vector Envelopementioning

confidence: 99%

Redirecting T lymphocyte specificity by T cell receptor gene transfer – A new era for immunotherapy

Engels

Uckert

2007

Molecular Aspects of Medicine

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Transduction efficiency of MLV but not of HIV-1 vectors is pseudotype dependent on human primary T lymphocytes

Cited by 18 publications

References 51 publications

Transduction of Nondividing Human Macrophages with Gammaretrovirus-Derived Vectors

Transduction of Nondividing Human Macrophages with Gammaretrovirus-Derived Vectors

Altering the Tropism of Lentiviral Vectors through Pseudotyping

Redirecting T lymphocyte specificity by T cell receptor gene transfer – A new era for immunotherapy

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