Lung‐Ji Chang scite author profile

All reactions involving reverse transcription of RNA are segregated from the cytosol within a subviral particle or capsid composed of the major capsid protein, the polymerase and the RNA template. A key step in the formation of these particles is the selective encapsidation of the RNA template. Although an important general feature of the reverse transcription pathway, encapsidation has been carefully studied only for retroviruses. We have now examined the encapsidation reaction in a family of enveloped DNA viruses that replicate by reverse transcription--the hepatitis B viruses (hepadnaviruses). Our results indicate that the hepadnaviral polymerase (P) gene product is required for RNA packaging, and that the encapsidation function of the enzyme can be separated from its DNA polymerase activity. To our knowledge, this is the first description of a role for polymerase gene products in this step of the reverse transcription pathway.

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Quantitation of human immunodeficiency virus type 1 infection kinetics

Dimitrov

Willey

Sato

et al. 1993

J Virol

460

137

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Tissue culture infections of CD4-positive human T cells by human immunodeficiency virus type 1 (HIV-1) proceed in three stages: (i) a period following the initiation of an infection during which no detectable virus is produced; (ii) a phase in which a sharp increase followed by a peak of released progeny virions can be measured; and (iii) a final period when virus production declines. In this study, we have derived equations describing the kinetics of HIV-1 accumulation in cell culture supernatants during multiple rounds of infection. Our analyses indicated that the critical parameter affecting the kinetics of HIV-1 infection is the infection rate constant k = Inn/ti, where n is the number of infectious virions produced by one cell (about 10(2)) and ti is the time required for one complete cycle of virus infection (typically 3 to 4 days). Of particular note was our finding that the infectivity of HIV-1 during cell-to-cell transmission is 10(2) to 10(3) times greater than the infectivity of cell-free virus stocks, the inocula commonly used to initiate tissue culture infections. We also demonstrated that the slow infection kinetics of an HIV-1 tat mutant is not due to a longer replication time but reflects the small number of infectious particles produced per cycle.

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Kinetic Analyses of Stability of Simple and Complex Retroviral Vectors

2001

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Simple and complex retroviral vectors derived from Moloney murine leukemia virus (MLV) and human immunodeficiency virus type 1 (HIV-1), respectively, are useful tools for gene transfer studies. However, factors affecting the stability of these vectors have not been carefully investigated. Here we studied the stability factors on vesicular stomatitis viral envelope glycoprotein (VSV-G)-pseudotyped MLV- and HIV-1-derived vectors. Analysis of the ratio of defective particles versus infectious units using electron microscopy and a functional transduction assay revealed that both vectors consisted of high numbers of defective particles ( approximately 100-350:1), which could be reduced ( approximately 10-20:1) by centrifugation. Frequent freeze-and-thaw rapidly decreased vector titer in the first three to five cycles and stabilized thereafter. Both viral vectors were sensitive to temperatures above 37 degrees C but more stable at temperatures below 37 degrees C, exhibiting a two-phase inactivation kinetic starting with a steep inactivation phase, followed by a more leveled phase. Interestingly, HIV-1-derived vectors were significantly more stable than MLV-derived vectors at higher temperatures (>37 degrees C). Both vectors were rapidly destabilized at pH either below or above 7.0. Incubation with human or mouse serum significantly inhibited VSV-G-pseudotyped vector activities. Preheated human serum still reduced vector half-lives to approximately 50% (150 min), suggesting that certain inactivation factors are not heat-labile. Analyses of these stability factors may improve future production and applications of retroviral and lentiviral vectors.

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ALDH isozymes downregulation affects cell growth, cell motility and gene expression in lung cancer cells

et al. 2008

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Human Antigen-Specific Regulatory T Cells Generated by T Cell Receptor Gene Transfer

et al. 2010

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BackgroundTherapies directed at augmenting regulatory T cell (Treg) activities in vivo as a systemic treatment for autoimmune disorders and transplantation may be associated with significant off-target effects, including a generalized immunosuppression that may compromise beneficial immune responses to infections and cancer cells. Adoptive cellular therapies using purified expanded Tregs represents an attractive alternative to systemic treatments, with results from animal studies noting increased therapeutic potency of antigen-specific Tregs over polyclonal populations. However, current methodologies are limited in terms of the capacity to isolate and expand a sufficient quantity of endogenous antigen-specific Tregs for therapeutic intervention. Moreover, FOXP3+ Tregs fall largely within the CD4+ T cell subset and are thus routinely MHC class II-specific, whereas class I-specific Tregs may function optimally in vivo by facilitating direct tissue recognition.Methodology/Principal FindingsTo overcome these limitations, we have developed a novel means for generating large numbers of antigen-specific Tregs involving lentiviral T cell receptor (TCR) gene transfer into in vitro expanded polyclonal natural Treg populations. Tregs redirected with a high-avidity class I-specific TCR were capable of recognizing the melanoma antigen tyrosinase in the context of HLA-A*0201 and could be further enriched during the expansion process by antigen-specific reactivation with peptide loaded artificial antigen presenting cells. These in vitro expanded Tregs continued to express FOXP3 and functional TCRs, and maintained the capacity to suppress conventional T cell responses directed against tyrosinase, as well as bystander T cell responses. Using this methodology in a model tumor system, murine Tregs designed to express the tyrosinase TCR effectively blocked antigen-specific effector T cell (Teff) activity as determined by tumor cell growth and luciferase reporter-based imaging.Conclusions/SignificanceThese results support the feasibility of class I-restricted TCR transfer as a promising strategy to redirect the functional properties of Tregs and provide for a more efficacious adoptive cell therapy.

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Lung‐Ji Chang

Polymerase gene products of hepatitis B viruses are required for genomic RNA packaging as well as for reverse transcription

Quantitation of human immunodeficiency virus type 1 infection kinetics

Kinetic Analyses of Stability of Simple and Complex Retroviral Vectors

ALDH isozymes downregulation affects cell growth, cell motility and gene expression in lung cancer cells

Human Antigen-Specific Regulatory T Cells Generated by T Cell Receptor Gene Transfer

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