Substantially improved gene transfer to interneurons with second-generation glutamate receptor-targeted DART-AAV vectors.

BACKGROUND: Adeno-associated viral vectors (AAVs) are a widely used gene transfer platform in neuroscience. Although naturally AAV serotypes can have preferences for certain tissues, selectivity for particular cell types in the CNS does not exist. Towards interneuron targeting, capsid engineering of AAV2 including display of the designed ankyrin repeat protein (DARPin) 2K19 specific for the glutamate receptor subunit 4 (GluA4) at the N-terminus of the VP2 capsid protein has been established. The resulting AAV-VP2N is highly specific for interneurons, but exhibits rather moderate transduction efficiencies. METHODS: Two alternative insertion sites for 2K19 in the GH2/GH3 loop of capsid proteins VP1 (AAV-VP1L) or VP2 (AAV-VP2L) were exploited to yield second generation GluA4-AAVs. Having packaged reporter genes under ubiquitous promoters, the vectors were characterized for biochemical properties as well as gene delivery into cell lines and rat hippocampal slice cultures. Electrophysiological recordings monitored the functional properties of transduced cells. RESULTS: Compared to AAV-VP2N, the second-generation vectors, especially AAV-VP1L, achieved about 2-fold higher genomic titers as well as a substantially improved GluA4 binding. Improvements in gene transfer activities were 18-fold on GluA4-overexpressing A549 cells and five-fold on rat hippocampal organotypic slice cultures reaching approximately 60 % of all parvalbumin positive interneurons upon a single administration. The spiking behaviour of transduced cells was unaltered and characteristic for a heterogeneous group of interneurons. CONCLUSION: The substantially improved gene transfer activity of the second generation GluA4-targeted AAV combined with low toxicity makes this vector an attractive tool for interneuron-directed gene transfer with unrestricted promotor and transgene choice.

AAV-mediated gene transfer of a checkpoint inhibitor in combination with HER2-targeted CAR-NK cells as experimental therapy for glioblastoma.

Glioblastoma (GB) is the most common primary brain tumor, which is characterized by low immunogenicity of tumor cells and prevalent immunosuppression in the tumor microenvironment (TME). Targeted local combination immunotherapy is a promising strategy to overcome these obstacles. Here, we evaluated tumor-cell specific delivery of an anti-PD-1 immunoadhesin (aPD-1) via a targeted adeno-associated viral vector (AAV) as well as HER2-specific NK-92/5.28.z (anti-HER2.CAR/NK-92) cells as components for a combination immunotherapy. In co-culture experiments, target-activated anti-HER2.CAR/NK-92 cells modified surrounding tumor cells and bystander immune cells by triggering the release of inflammatory cytokines and upregulation of PD-L1. Tumor cell-specific delivery of aPD-1 was achieved by displaying a HER2-specific designed ankyrin repeat protein (DARPin) on the AAV surface. HER2-AAV mediated gene transfer into GB cells correlated with HER2 expression levels, without inducing anti-viral responses in transduced cells. Furthermore, AAV-transduction did not interfere with anti-HER2.CAR/NK-92 cell-mediated tumor cell lysis. After selective transduction of HER2+ cells, aPD-1 expression was detected at the mRNA and protein level. The aPD-1 immunoadhesin was secreted in a time-dependent manner, bound its target on PD-1-expressing cells and was able to re-activate T cells by efficiently disrupting the PD-1/PD-L1 axis. Moreover, high intratumoral and low systemic aPD-1 concentrations were achieved following local injection of HER2-AAV into orthotopic tumor grafts in vivo. aPD-1 was selectively produced in tumor tissue and could be detected up to 10 days after a single HER2-AAV injection. In subcutaneous GL261-HER2 and Tu2449-HER2 immunocompetent mouse models, administration of the combination therapy significantly prolonged survival, including complete tumor control in several animals in the GL261-HER2 model. In summary, local therapy with aPD-1 encoding HER2-AAVs in combination with anti-HER2.CAR/NK-92 cells may be a promising novel strategy for GB immunotherapy with the potential to enhance efficacy and reduce systemic side effects of immune-checkpoint inhibitors.

Holo-APP and G-protein-mediated signaling are required for sAPPα-induced activation of the Akt survival pathway.

Accumulating evidence indicates that loss of physiologic amyloid precursor protein (APP) function leads to reduced neuronal plasticity, diminished synaptic signaling and enhanced susceptibility of neurons to cellular stress during brain aging. Here we investigated the neuroprotective function of the soluble APP ectodomain sAPPα (soluble APPα), which is generated by cleavage of APP by α-secretase along the non-amyloidogenic pathway. Recombinant sAPPα protected primary hippocampal neurons and SH-SY5Y neuroblastoma cells from cell death induced by trophic factor deprivation. We show that this protective effect is abrogated in neurons from APP-knockout animals and APP-depleted SH-SY5Y cells, but not in APP-like protein 1- and 2- (APLP1 and APLP2) depleted cells, indicating that expression of membrane-bound holo-APP is required for sAPPα-dependent neuroprotection. Trophic factor deprivation diminished the activity of the Akt survival pathway. Strikingly, both recombinant sAPPα and the APP-E1 domain were able to stimulate Akt activity in wild-type (wt) fibroblasts, SH-SY5Y cells and neurons, but failed to rescue in APP-deficient neurons or fibroblasts. The ADAM10 (a disintegrin and metalloproteinase domain-containing protein 10) inhibitor GI254023X exacerbated neuron death in organotypic (hippocampal) slice cultures of wt mice subjected to trophic factor and glucose deprivation. This cell death-enhancing effect of GI254023X could be completely rescued by applying exogenous sAPPα. Interestingly, sAPPα-dependent Akt induction was unaffected in neurons of APP-ΔCT15 mice that lack the C-terminal YENPTY motif of the APP intracellular region. In contrast, sAPPα-dependent rescue of Akt activation was completely abolished in APP mutant cells lacking the G-protein interaction motif located in the APP C-terminus and by blocking G-protein-dependent signaling with pertussis toxin. Collectively, our data provide new mechanistic insights into the physiologic role of APP in antagonizing neurotoxic stress: they suggest that cell surface APP mediates sAPPα-induced neuroprotection via G-protein-coupled activation of the Akt pathway.

Targeted lentiviral vectors pseudotyped with the Tupaia paramyxovirus glycoproteins.

Lentiviral vectors are vectors of choice for many gene therapy applications. Recently, efficient targeting of lentiviral vectors pseudotyped with the Measles virus (MV) glycoproteins has been reported. However, MV antibodies in patients might limit the clinical use of these vectors. We demonstrate here that lentiviral vectors can also be pseudotyped with the glycoproteins of Tupaia paramyxovirus (TPMV), the hemagglutinin (H) and fusion (F) protein. As this animal paramyxovirus has no known close relatives in humans, we do not expect TPMV antibodies in patients. Because TPMV normally does not infect human cells, 'detargeting' from natural receptors is unnecessary. Similar to the MV system, TPMV glycoproteins can mediate targeted cell entry by displaying different single-chain antibodies (scAb) directed against surface molecules on target cells on the viral hemagglutinin. We generated a panel of H and F proteins with truncated cytoplasmic tails and determined the variants that efficiently pseudotyped lentiviral vectors. The B-cell marker CD20 was used as a model antigen, and CD20-targeted TPMV vectors selectively transduced CD20-positive cells, including quiescent primary human B-cells. Lentiviral vectors pseudotyped with targeted TPMV envelope proteins might be a valuable vector choice when systemic application of targeted lentiviral vectors in humans is required.

Effect of air exposure on lysosomal tissues of Mytilus edulis L. from natural intertidal wild beds and submerged culture ropes.

Blue mussels collected from suspended culture ropes and from three natural intertidal wild beds from different areas of the German Bight were tested for their ability to cope with hypoxic conditions. During the experiment mussels were exposed to air from 0 to 72h. Mussels from all sampling sites displayed high tolerance to aerial exposure with moderate levels of mortality after 12 to 48h of exposure. Lysosomal membrane stability (LMS), a biomarker of general stress, changed notably between minimum values after 12h and maximum values after 24h of aerial exposure in intertidal mussels. In contrast, labilization times of mussels from the hanging culture increased continuously up to 48h of exposure. Intertidal mussels from the island of Heligoland exhibited significantly decreased membrane stability after 72h of air exposure, correlating to higher mortality rates. Intertidal mussels, although adapted to daily aerial exposure in their natural environment, showed a similar pattern of mortality and lower LMS values during the experiment than mussels from the suspended culture site. The increase of LMS values of mussels under hypoxic conditions at the beginning of the experiment at all sites was tested for the influence of macro-autophagic processes using immune labelling techniques. With this approach it could be demonstrated that high LMS values significantly correlate with low autophagic activity. However, hypoxic conditions do not enhance autophagic processes during the early periods of aerial exposure. Only at the end of the experiment, high values for autophagy were measured in mussels from an intertidal site accompanied with high mortalities. The results indicate that autophagic processes are not involved in the early adaptive processes that enable the mussel to cope with periods of aerial exposure.

RNAi-mediated gene silencing in tumour tissue using replication-competent retroviral vectors.

RNAi represents a powerful technology to specifically downregulate the expression of target genes. For cancer research and therapy, an efficient in vivo delivery system is supposed to distribute RNAi to all tumour cells upon systemic administration. We present replication-competent murine leukaemia virus (MLV) vectors, which deliver RNAi to tumour tissue upon tail vein injection. In HT1080 cells stably expressing GFP or luciferase, GFP expression was suppressed by more than 80% and luciferase (luc) activity by more than 90%, even when only 0.1% of the cells were initially infected with reporter gene specific vectors. To demonstrate its potential, PLK1- and MMP14-specific small hairpin RNA expression cassettes were applied in the system. Upon infection, PLK1 and MMP14 levels were reduced on mRNA and protein level. MLV-shPLK1-infected cells were arrested in the G2-phase and underwent apoptosis. MLV-shMMP14-infected cells showed reduced MMP2 activity, as well as substantially reduced invasion and tumour growth. In vivo, MLV-shLuc silenced luc expression in HT1080-luc tumour tissue by more than 80% and MLV-shPLK1 reduced tumour growth substantially, demonstrating the therapeutic relevance of this system. This RNAi vector system allows long-term downregulation of target gene expression as well as efficient delivery to and distribution throughout tumour tissue in vivo.

Environmental risk assessment for medicinal products containing genetically modified organisms.

Many gene therapy medicinal products and also some vaccines consist of, or contain, genetically modified organisms (GMOs), which require specific consideration in the environmental risk assessment (ERA) before marketing authorisation or clinical trial applications. The ERA is performed in order to identify the potential risks for public health and the environment, which may arise due to the clinical use of these medicinal products. If such environmental risks are identified and considered as not acceptable, the ERA should go on to propose appropriate risk management strategies capable to reduce these risks. This article will provide an overview of the legal basis and requirements for the ERA of GMO-containing medicinal products in the context of marketing authorisation in the EU and clinical trials in Germany. Furthermore, the scientific principles and methodology that generally need to be followed when preparing an ERA for GMOs are discussed.

Pseudotyping lentiviral vectors with the wild-type measles virus glycoproteins improves titer and selectivity.

We pseudotyped HIV-1 vectors with cytoplasmic tail-truncated envelope glycoproteins of a wild-type (WT) measles virus (MV). The particles entered the lymphatic cells exclusively through the signaling lymphocyte activation molecule (SLAM, CD150), whereas particles pseudotyped with the MV vaccine strain glycoproteins also recognized the ubiquitous membrane cofactor protein (CD46) as receptor and had less specific cell entry. MV(WT)-HIV vectors reached titers of 10(8) t.u. ml(-1), which were up to 10-fold higher than those of MV(Vac)-HIV vectors, and discriminated between SLAM-positive and SLAM-negative cells, also in mixed cell cultures. As these vectors transduce primary human cells more efficiently than vesicular stomatitis virus-G pseudotyped vectors do, they are promising candidates for gene transfer to human lymphocytes and certain epithelial cells.

Cell entry targeting restricts biodistribution of replication-competent retroviruses to tumour tissue.

Virotherapy is currently being developed for many different types of viruses including replication-competent murine leukaemia virus (MLV) as a novel tool in cancer therapy. However, there is the risk of insertional mutagenesis associated with this virus, making careful preclinical studies necessary before its first application in man. We have previously generated conditionally replication-competent MLV variants that require activation by tumour-associated proteases to become infectious. Here we analysed in a comparative study the spreading of non-targeted and of such tumour-targeted MLV variants to tumour and extratumoural organs in immunodeficient mice. Both virus types were able to efficiently infect tumour cells after systemic administration. The non-targeted virus, however, also infected extratumoural organs like bone marrow, spleen and liver efficiently. In contrast, the targeted viruses revealed in a quantitative analysis of virus spreading an up to 500-fold more selective infection of tumour tissue than the non-targeted virus. The data raise serious doubts about a safe clinical use of non-targeted MLV. Engineering the virus to become activatable by tumour-associated proteases can significantly improve the safety of MLV.

Gene therapy bio-safety: scientific and regulatory issues.

We report here the topics discussed during the round table of the 2nd European Conference & Practical Course: Towards Clinical Gene Therapy: Preclinical Gene Transfer Assessment, held in Bellaterra (Spain), 1-14 February, 2004. First, how to predict the risk of pathologies generated by changes of the gene expression after proviral genome integration. In the light of the scientific information that emerged after the SAEs occurred in three X-SCID patients treated in France, (a) it is necessary to take into the account the dose of vector used in transduction protocols, in order to minimize the risk to target potentially pathogenic loci. Namely, low vector doses are recommended to minimize the number of vector genomes inserted per cell. (b) The potency of vector elements (ie promoter and transgene), in terms of activation of undesired cell function(s), should be elucidated to devise safe transduction protocols. (c) Target cells should be better characterized before and after transduction to avoid reinfusion into patients' cells, with proviral integration that may be pathogenic. (d) The possibility of replacing onco-retroviruses with other vector systems should be envisaged, for example, nonintegrative gene correction strategies. Second, adequate animal models are required in preclinical experimentation before going to clinics. Although animal models are not yet predictive for risk assessment of proviral insertion, they allow validation of the proof of principle of gene therapy strategies and pharmacological characterization of gene transfer products. Third, a dialogue between researchers and members of regulatory agencies is necessary to implement the regulatory frame where gene therapy products are to be used as new bio-pharmaceuticals. This will implement the whole gene therapy process development at both preclinic (research, development and clinical designs) and postclinic (follow-up of patients) stages. Hence, a European cooperation between professionals (researchers, physicians, industries, patients' associations, investors, etc) will allow implementation of gene therapy regulation in Eastern European countries.

Library-based selection of retroviruses selectively spreading through matrix metalloprotease-positive cells.

Viruses conditionally replicating in cancer cells form an attractive novel class of antitumoral agents. To engineer such viruses infectivity can be coupled with proteolytic activity of the target cell by modifying the envelope (Env) protein of murine leukaemia virus (MLV) with blocking domains that prevent cell entry unless they are cleaved off by tumour-associated proteases like the matrix metalloproteases (MMP). Here we show that MLV variants selectively spreading through MMP-positive cells can be evolved from virus libraries, in which a standard MMP-2 substrate peptide connecting the blocking domain CD40L with the Env protein was diversified. Passaging the virus library on human fibrosarcoma or glioma cell lines resulted in the selection of about 10 virus clones, of which the three most frequent ones were shown to become activated by MMPs and to be replication competent on MMP-positive cells only. On these cells, the selected linker peptides improved the spreading by several orders of magnitude in vitro, as well as in tumour xenografts in vivo, approaching the kinetic of the unmodified wild-type virus. The data suggest that retroviral protease substrate libraries form a potent tool for the engineering of viruses conditionally replicating in a given cancer cell type of interest.

Drop outs from in-patient treatment of anorexia nervosa.

OBJECTIVE: Aim of the study was to identify patient characteristics that distinguish drop outs and completers from in-patient treatment for anorexia nervosa. METHOD: A total of 133 consecutively admitted in-patients with anorexia nervosa (age range 16-50 years; 92.5% women) were analysed using sociodemographic variables as well as measures of psychopathology (SCL-90-R, EDI-2) and interpersonal difficulties (IIP-C). Patients were treated in a multimodal treatment setting, combining cognitive-behavioural and psychodynamic components. RESULTS: Patients, who reported fewer symptoms, were hospitalized before and had a comorbid depression stayed more often in psychotherapy. Patients dropping out of treatment (31.6%) showed a trend to higher levels of maturity fears. Subtype, age, duration of illness, comorbid personality disorders or previous drop outs were not predictive of dropping out. CONCLUSION: Addressing the high ambivalence and maturity fears of anorexic patients should be an essential issue in psychotherapy with this patient group.

Directed evolution of retroviruses activatable by tumour-associated matrix metalloproteases.

Protease-activatable retroviral vectors offer the possibility of targeted gene transfer into cancer cells expressing a unique set of proteases as, for example, the matrix metalloproteases (MMPs). However, it is difficult to predict which substrate sequence will be optimally cleaved by a given tumour cell type. Therefore, we developed a novel approach that allows the selection of MMP-activatable retroviruses from libraries of viruses displaying combinatorially diversified protease substrates. Starting from a virus harbouring a standard MMP-2 substrate motif, after only two consecutive cycles of diversification and in vivo selection, MMP-activatable viruses were recovered. Biochemical characterization of the selected viruses revealed that their linker peptides showed a considerably increased sensitivity for MMP-2 cleavage, and interestingly also improved the particle incorporation rate of the Env protein. Owing to the optimized linker peptide, the selected viruses exhibited a greatly enhanced spreading efficiency through human fibrosarcoma cells, while having retained the dependency on MMP activation. Moreover, cell entry efficiency and virus titres were considerably improved as compared to the parental virus displaying the standard MMP-2 substrate. The results presented imply that retroviral protease substrate libraries allow the definition of MMP substrate specificities under in vivo conditions as well as the generation of optimally adapted tumour-specific viruses.

Targeted gene transfer to lymphocytes using murine leukaemia virus vectors pseudotyped with spleen necrosis virus envelope proteins.

In contrast to murine leukaemia virus (MLV)-derived vector systems, vector particles derived from the avian spleen necrosis virus (SNV) have been successfully targeted to subsets of human cells by envelope modification with antibody fragments (scFv). However, an in vivo application of the SNV vector system in gene transfer protocols is hampered by its lack of resistance against human complement. To overcome this limitation we established pseudotyping of MLV vector particles produced in human packaging cell lines with the SNV envelope (Env) protein. Three variants of SNV Env proteins differing in the length of their cytoplasmic domains were all efficiently incorporated into MLV core particles. These pseudotype particles infected the SNV permissive cell line D17 at titers of up to 10(5) IU/ml. A stable packaging cell line (MS4) of human origin released MLV(SNV) pseudotype vectors that were resistant against human complement inactivation. To redirect their tropism to human T cells, MS4 cells were transfected with the expression gene encoding the scFv 7A5 in fusion with the transmembrane domain (TM) of the SNV Env protein, previously shown to retarget SNV vector particles to human lymphocytes. MLV(SNV-7A5)-vector particles released from these cells were selectively infectious for human T cell lines. The data provide a proof of principle for targeting MLV-derived vectors to subpopulations of human cells through pseudotyping with SNV targeting envelopes.

Long-term outcome of anorexia nervosa in a prospective 21-year follow-up study.

BACKGROUND: Given our poor understanding of the very long-term course of anorexia nervosa. many questions remain regarding the potential for recovery and relapse. The purpose of the present study was to investigate long-term outcome and prognosis in an anorexic sample 21 years after the initial treatment. METHOD: A multidimensional and prospective design was used to assess outcome in 84 patients 9 years after a previous follow-up and 21 years after admission. Among the 70 living patients, the follow-up rate was 90%. Causes of death for the deceased patients were obtained through the attending physician. Predictors of a poor outcome at the 21-year follow-up were selected based on the results of a previous 12-year follow-up of these patients. RESULTS: Fifty-one per cent of the patients were found to be fully recovered at follow-up, 21% were partially recovered and 10% still met full diagnostic criteria for anorexia nervosa. Sixteen per cent were deceased, due to causes related to anorexia nervosa. The standardized mortality rate was 9.8. The three groups also showed significant differences in psychosocial outcome. A low body mass index and a greater severity of social and psychological problems were identified as predictors of a poor outcome. CONCLUSIONS: Recovery is still possible for anorexic patients after a period of 21 years. On the other hand, patients can relapse, becoming symptomatic again despite previously achieving recovery status. Only a few patients classified as having a poor outcome were found to seek any form of treatment, therefore, it is recommended that these patients should be monitored regularly and offered treatment whenever possible.

Lentiviral vectors pseudotyped with envelope glycoproteins derived from gibbon ape leukemia virus and murine leukemia virus 10A1.

Lentiviral vectors pseudotyped with the envelope glycoproteins (Env) of amphotropic murine leukemia virus (MLV) and the G protein of vesicular stomatitis virus (VSV-G) have been successfully used in recent preclinical gene therapy studies. We report here the generation of infectious HIV-1-derived vector particles pseudotyped with the Env of the molecular clone 10A1 of MLV and with chimeric envelope glycoprotein variants derived from gibbon ape leukemia virus (GaLV) and MLV. Formation of infectious HIV-1 (GaLV) pseudotype vectors was only possible with the substitution of the cytoplasmic tail of GaLV Env with that of MLV. The lentiviral vectors exhibited a host cell range identical with that of MLV(GaLV) and MLV(10A1) vectors, which are known to enter cells either via the GaLV-receptor Glvr-1 (Pit-1) or via the amphotropic receptor Ram-1 (Pit-2) in addition to Glvr-1, respectively. Thus, HIV-1(GaLV) and HIV-1(10A1) pseudotype vectors may be useful for efficient gene transfer into a variety of human tissues like primary human hematopoietic cells.

Targeting human T cells by retroviral vectors displaying antibody domains selected from a phage display library.

To generate T cell-specific retroviral vectors an scFv phage display library derived from immunized mice was selected for binding to the human T cell line Molt-4/8. The scFv cDNAs recovered from the selected phages were transiently expressed as an N-terminal fusion of the spleen necrosis virus (SNV) transmembrane protein (TM) subunit of the viral envelope protein (Env) in the cell line DSH-cxl, which packages the beta-galactosidase gene into SNV particles. Screening of supernatants from about 150 transfections resulted in the identification of 5 scFvs that mediated efficient transduction of Molt-4/8 cells. Using stable packaging cell lines vector preparations with titers greater than 10(4) EFU/ml on human T cells were obtained. The scFv 7A5 in particular was able to mediate selective transduction of human T cells with high efficiency. Titers of up to 106 EFU/ml were reached on Molt-4/8, Jurkat, and A301 cells, while titers on HeLa cells, TE671 cells, 293T cells, and HT1080 cells were below 102 EFU/ml. Transduction of stimulated primary human peripheral blood cells, which consisted mainly of T cells, was about fivefold more efficient than transduction of B cells. Western blot analysis of supernatant from the 7A5 packaging cells demonstrated incorporation of 7A5-TM into vector particles and indicated proteolytic processing of the coexpressed unmodified TM during particle formation. Binding of bacterially expressed 7A5-scFv to a panel of cell lines correlated well with the transduction results. These data provide the first proof of concept that a general approach can be taken to obtain scFvs able to mediate selective gene transfer into target cells.

MLV-derived retroviral vectors selective for CD4-expressing cells and resistant to neutralization by sera from HIV-infected patients.

Retroviral vectors derived from amphotropic murine leukemia viruses (MLV) mediate gene transfer into almost all human cells and are thus not suitable for in vivo applications in gene therapy in which cell-specific gene delivery is required. We and others recently reported the generation of MLV-derived vectors pseudotyped by variants of the envelope glycoproteins (Env) of human immunodeficiency virus type 1 (HIV-1), thus displaying the CD4-dependent tropism of the parental lentivirus (Mammano et al., 1997, J. Virol. 71, 3341-3345; Schnierle et al., 1997, Proc. Natl. Acad. Sci. USA 76, 8640-8645). However, because of their HIV-1-derived envelopes these vectors are neutralized by HIV-specific antibodies present in some infected patients. To circumvent this problem, we pseudotyped MLV capsid particles with variants of Env proteins derived from the apathogenic simian immunodeficiency virus (SIVagm) of African green monkeys (AGM; Chlorocebus pygerythrus). Truncation of the C-terminal domain of the transmembrane protein was found to be necessary to allow formation of infectious pseudotype vectors. These [MLV(SIVagm)] vectors efficiently transduced various human CD4-expressing cell lines using the coreceptors CCR5 and Bonzo to enter target cells. Moreover, they were resistant to neutralization by antibodies directed against HIV-1. Therefore, [MLV(SIVagm)] vectors will be useful to study the mechanisms of SIVagm cell entry and for the selective gene transfer into CD4+ T-cells of AIDS patients.

Measles virus spread by cell-cell contacts: uncoupling of contact-mediated receptor (CD46) downregulation from virus uptake.

CD46, which serves as a receptor for measles virus (MV; strain Edmonston), is rapidly downregulated from the cell surface after contact with viral particles or infected cells. We show here that the same two CD46 complement control protein (CCP) domains responsible for primary MV attachment mediate its downregulation. Optimal downregulation efficiency was obtained with CD46 recombinants containing CCP domains 1 and 2, whereas CCP 1, alone and duplicated, induced a slight downregulation. Using persistently infected monocytic/promyelocytic U937 cells which release very small amounts of infectious virus, and uninfected HeLa cells as contact partners, we then showed that during contact the formation of CD46-containing patches and caps precedes CD46 internalization. Nevertheless, neither substances inhibiting capping nor the fusion-inhibiting peptide Z-D-Phe-L-Phe-Gly-OH (FIP) blocked CD46 downregulation. Thus, CD46 downregulation can be uncoupled from fusion and subsequent virus uptake. Interestingly, in that system cell-cell contacts lead to a remarkably efficient infection of the target cells which is only partially inhibited by FIP. The finding that the contact of an infected with uninfected cells results in transfer of infectious viral material without significant (complete) fusion of the donor with the recipient cell suggests that microfusion events and/or FIP-independent mechanisms may mediate the transfer of MV infectivity from cell to cell.

Retroviral cell targeting vectors.

The availability of cell targeting vectors is an unalterable requirement for in vivo gene therapy trials. This review will describe the different strategies developed over the past few years in order to target retroviral vectors to preselected human cell types by genetic modification of the envelope (Env) proteins. Current targeting concepts include the substitution of the complete Env protein as well as the incorporation of new receptor binding domains into the Env protein. These approaches are aimed at altering the host range of vectors with a natural tropism for non-human cells to specific human cell types, or achieving tissue-specificity for vectors that would naturally infect a wide spectrum of human cell types. Targeting concepts and efficient targeting vectors with potential for clinical trials will be described, and their advantages and disadvantages will be discussed.