Jack A. Ragheb scite author profile

The consequences of T-cell receptor engagement (signal 1) are profoundly affected by the presence or absence of co-stimulation (signal 2). T-cell receptor (TCR) stimulation in the absence of CD28-mediated co-stimulation not only results in little interleukin (IL)-2 production, but induces a long lasting hyporesponsive state known as T-cell clonal anergy. The addition of CD28 ligation to signal 1, on the other hand, results in the production of copious amounts of IL-2. Our laboratory has utilized CD4+ Th 1 clones in an effort to understand the molecular events resulting in enhanced IL-2 production by co-stimulation and the inhibition of IL-2 production in anergy. Our current studies have focused on defining the post-transcriptional effects of CD28-enhanced IL-2 production. The data suggest that a major component of CD28's ability to regulate IL-2 production occurs at the level of message stability and involves the 3'-untranslated region of the message. In terms of anergy, our recent studies support the notion that it is not the result of TCR engagement in the absence of co-stimulation, but rather signal 1 in the absence of IL-2 receptor signaling and proliferation. Furthermore, T-cell anergy appears to be an active negative state in which IL-2 production is inhibited both at the level of signal transduction and by cis-dominant repression at the level of the IL-2 promoter.

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Retroviral vectors containing putative internal ribosome entry sites: development of a polycistronic gene transfer system and applications to human gene therapy

Morgan

Couture²,

et al. 1992

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Recombinant retroviral vectors producing multicistronic mRNAs were constructed. Picornavirus putative internal ribosome entry sites (IRES) were used to confer cap-independent translation of an internal cistron. Internal cistrons were engineered by ligation of various lengths of the IRES of encephalomyocarditis (EMC) virus or polio virus to the E. coli chloramphenicol acetyltransferase (CAT) gene. The IRES/CAT fusions were introduced into retroviral vectors 3' to the translation stop codon of the neomycin phosphotransferase (NEO) gene, and the molecular constructs transfected into retroviral vector packaging lines. Retroviral vector producer cells efficiently express the internal CAT gene product only when the full length IRES is used. Both the EMC/CAT and polio/CAT retroviral vectors produced high titer vector supernatant capable of productive transduction of target cells. To test the generality of this gene transfer system, a retroviral vector containing an IRES fusion to the human adenosine deaminase (ADA) gene was constructed. Producer cell supernatant was used to transduce NIH/3T3 cells, and transduced cells were shown to express NEO, and ADA. Novel three-gene-containing retroviral vectors were constructed by introducing the EMC/ADA fusion into either an existing internal-promoter-containing vector, or a polio/CAT bicistronic vector. Producer cell clones of the three-gene vectors synthesize all three gene products, were of high titer, and could productively transduce NIH/3T3 cells. By utilizing cap-independent translation units, IRES vectors can produce polycistronic mRNAs which enhance the ability of retroviral-mediated gene transfer to engineer cells to produce multiple foreign proteins.

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pH-independent murine leukemia virus ecotropic envelope-mediated cell fusion: implications for the role of the R peptide and p12E TM in viral entry

Ragheb

Anderson

1994

J Virol

173

103

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Murine leukemia virus ecotropic and amphotropic envelope expression vectors were genetically engineered to generate truncations of the pl5E TM cytoplasmic tail. The ecotropic construct CEET has the entire cytoplasmic tail of TM deleted, while the CEETR construct has only the R peptide portion of the tail deleted, thereby producing a TM subunit (pl2E) that is identical to the one found in mature virions. The analogous amphotropic constructs were called CAET and CAETR. These envelopes, as opposed to their pl5E TM counterparts, mediate cell-to-cell fusion at neutral pH in both transformed and nontransformed cell lines. Though the TM cytoplasmic domain is not required, its presence appears to augment such cell-to-cell fusion. This envelope-dependent fusion requires the presence of the viral receptor on the cell surface. Ecotropic virions bearing the pl2E TM contain wild-type levels of the envelope complex and have near-normal titers. In contrast, virions which lack the cytoplasmic domain of TM (e.g., CEET) have 10to 100-fold-lower titers but contain normal amounts of envelope. Both of the corresponding amphotropic virions contain normal amounts of envelope but have 10to 100-fold-lower titers. Using immunofluorescent detection of envelope to monitor the fate of receptor-bound virions, we found that ecotropic murine leukemia virus envelope disappears from the cell surface while amphotropic envelope persists on the cell surface after virus binding. This pattern of immunofluorescence is consistent with the proposed routes of cell entry for these viruses, i.e., by endocytosis and direct fusion, respectively. In this assay, ecotropic virions bearing the genetically engineered pl2E TM also appear to be internalized despite the ability of their envelope to mediate fusion at neutral pH in the same target cells. Our results show that direct fusion at neutral pH is a natural consequence of the surface expression of the mature ecotropic envelope and its receptor. We propose that the processing of the R peptide from the envelope TM (pl5E) to yield pl2E, at the time of virus budding or within virions, renders the envelope competent to fuse.

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Jack A. Ragheb

Molecular regulation of interleukin‐2 expression by CD28 co‐stimulation and anergy

Retroviral vectors containing putative internal ribosome entry sites: development of a polycistronic gene transfer system and applications to human gene therapy

pH-independent murine leukemia virus ecotropic envelope-mediated cell fusion: implications for the role of the R peptide and p12E TM in viral entry

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