Critical parameters and molecular analysis of lentiviral vector-mediated gene transfer into human haematopoietic stem cells

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APOBEC3G-Depleted Resting CD4+ T Cells Remain Refractory to HIV1 Infection

Background: CD4+ T lymphocytes are the primary targets of HIV1 but cannot be infected when fully quiescent, due to a post-entry block preventing the completion of reverse transcription. Chiu et al. recently proposed that this restriction reflects the action of APOBEC3G (A3G). They further suggested that T cell activation abrogates the A3G-mediated block by directing this protein to a high molecular mass complex. Methodology/Principal Findings: In the present work, we sought to explore further this model. However, we found that effective suppression of A3G by combined RNA interference and expression of HIV1 Vif does not relieve the restrictive phenotype of post-activation resting T cells. We also failed to find a correlation between HIV resistance and the presence of A3G in a low molecular complex in primary T cells. Conclusions/Significance: We conclude that A3G is unlikely to play a role in the HIV restrictive phenotype of quiescent T lymphocytes

An Evaluation Schema for the Ethical Use of Autonomous Robotic Systems in Security Applications

We propose a multi-step evaluation schema designed to help procurement agencies and others to examine the ethical dimensions of autonomous systems to be applied in the security sector, including autonomous weapons systems

Forkhead box P3: the peacekeeper of the immune system.

Ten years ago Forkhead box P3 (FOXP3) was discovered as master gene driving CD4(+)CD25(+) T cell regulatory (Treg) function. Since then, several layers of complexity have emerged in the regulation of its expression and function, which is not only exerted in Treg cells. While the mechanisms leading to the highly selective expression of FOXP3 in thymus-derived Treg cells still remain to be elucidated, we review here the current knowledge on the role of FOXP3 in the development of Treg cells and the direct and indirect consequences of FOXP3 mutations on multiple arms of the immune response. Finally, we summarize the newly acquired knowledge on the epigenetic regulation of FOXP3, still largely undefined in human cells

62. Proteasome Activity Restricts Lentiviral Gene Transfer into Hematopoietic Stem Cells and Is Down-Regulated by Cytokines That Enhance Transduction

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Cognitive Self-Enhancement as a Duty to Oneself: A Kantian Perspective

Recently some bioethicists and neuroscientists have argued for an imperative of chemical cognitive enhancement. This imperative is usually based on consequentialist grounds. In this paper, the topic of cognitive self-enhancement is discussed from a Kantian point of view in order to shed new light on the controversial debate. With Kant, it is an imperfect duty to oneself to strive for perfecting one's own natural and moral capacities beyond one's natural condition, but there is no duty to enhance others. A Kantian approach does not directly lead to a duty of chemical cognitive self-enhancement, but it also does not clearly rule out that this type of enhancement can be an appropriate means to the end of self-improvement. Th

Molecular Evidence of Lentiviral Vector-Mediated Gene Transfer into Human Self-Renewing, Multi-potent, Long-Term NOD/SCID Repopulating Hematopoietic Cells

A major challenge in gene therapy is to achieve efficient transduction of hematopoietic stem cells (HSC). It has previously been shown that lentiviral vectors (LV) transduce efficiently human cord blood-derived NOD/SCID mouse repopulating cells (SRC). Here we studied the effect of cytokines during the short ex vivo incubation with vector. Although SRC transduction was efficient without stimulation, the presence of cytokines significantly improved it. The treatment did not affect the engraftment level or the SRC frequency, but seemed to enhance SRC susceptibility to LV. SRC transduced in both conditions repopulated primary and secondary recipients, maintaining stable multi-lineage transgene expression. Using linear amplification-mediated PCR, we then analyzed vector integration in the bone marrow and CFC of the engrafted mice to monitor the clonal activity of the transduced SRC in vivo. We showed polyclonal engraftment, multi-lineage differentiation, and propagation to secondary recipients of individual SRC. We observed multiple integrations in most clones. These results provide the first formal demonstration that primitive human HSC with self-renewal and multi-lineage repopulation capacities were transduced by LV. Our findings are relevant for the design of clinical protocols that exploit this system to reach significant engraftment by genetically modified HSC in the absence of in vivo selection or strong conditioning regimens

HIV-1 mediated insertional activation of STAT5B promotes the formation of a viral reservoir in T regulatory cells

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Promoter trapping reveals significant differences in integration site selection between MLV and HIV vectors in primary hematopoietic cells

Recent reports have indicated that human immunodeficiency virus (HIV) and murine leukemia virus (MLV) vectors preferentially integrate into active genes. Here, we used a novel approach based on genetic trapping to rapidly score several thousand integration sites and found that MLV vectors trapped cellular promoters more efficiently than HIV vectors. Remarkably, 1 in 5 MLV integrations trapped an active promoter in different cell lines and primary hematopoietic cells. Such frequency was even higher in growth-stimulated lymphocytes. We show that the different behavior of MLV and HIV vectors was dependent on a different integration pattern within transcribed genes. Whereas MLV-based traps showed a strong bias for promoter-proximal integration leading to efficient reporter expression, HIV-based traps integrated throughout transcriptional units and were limited for expression by the distance from the promoter and the reading frame of the targeted gene. Our results indicate a strong propensity of MLV to establish transcriptional interactions with cellular promoters, a behavior that may have evolved to enhance proviral expression and may increase the insertional mutagenesis risk. Promoter trapping efficiency provides a convenient readout to assess transcriptional interactions between the vector and its flanking genes at the integration site and to compare integration site selection among different cell types and in different growth conditions

Measuring In Vivo Protein Half-Life

Protein turnover critically influences many biological functions, yet methods have been lacking to assess this parameter in vivo. Here, we demonstrate how chemical labeling of SNAP-tag fusion proteins can be exploited to measure the half-life of resident intracellular and extracellular proteins in living mice. First, we demonstrate that SNAP-tag substrates have wide bioavailability in mice and can be used for the specific in vivo labeling of SNAP-tag fusion proteins. We then apply near-infrared probes to perform noninvasive imaging of in vivo-labeled tumors. Finally, we use SNAP-mediated chemical pulse-chase labeling to perform measurement of the in vivo half-life of different extra- and intracellular proteins. These results open broad perspectives for studying protein function in living animals