Direct Immunologic activities of CpG DNA and implications for gene therapy

Krieg, Arthur Μ.

doi:10.1002/(sici)1521-2254(199901/02)1:1<56::aid-jgm5>3.3.co;2-y

Cited by 101 publications

(35 citation statements)

References 70 publications

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“…30,32 The presence of DNA endonucleases in muscle degraded 99% of unformulated plasmid within 90 min of delivery. 25 During plasmid delivery via EP, poly-L-glutamate may enhance plasmid uptake by neutralizing processes that normally deactivates exogenous DNA, such as degradation by nucleases or the binding to cationic entities in interstitial fluid. It is interesting to note that plasmid formulated with poly-L-glutamate showed similar levels of transgene expression as plasmid in saline when EP was omitted after i.m.…”

Section: Discussionmentioning

confidence: 90%

“…25,26 Therefore, the optimal delivery system to introduce plasmid into skeletal muscle would ideally allow substantial levels of transgene expression with a minimal amount of DNA administered. In our search for such systems, the effect of excess plasmid mass 27 was assessed to determine if the presence of a 'silent' DNA could increase transgene expression.…”

Section: Addition Of Empty Plasmid Increased Reporter Gene Expressionmentioning

confidence: 99%

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Poly-L-glutamate, an anionic polymer, enhances transgene expression for plasmids delivered by intramuscular injection with in vivo electroporation

et al. 2002

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Section: Discussionmentioning

confidence: 90%

Section: Addition Of Empty Plasmid Increased Reporter Gene Expressionmentioning

confidence: 99%

Poly-L-glutamate, an anionic polymer, enhances transgene expression for plasmids delivered by intramuscular injection with in vivo electroporation

et al. 2002

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“…On the other hand, several studies have revealed that lipoplexes (Dow et al, 1999;Yew et al, 1999;Kako et al, 2008) encapsulating bacterially derived plasmid DNA can induce strong activation of macrophages and subsequent production of high levels of proinflammatory cytokines after intravenous administration. The activation of macrophages is mediated by the strong immunostimulatory effect of unmethylated CpG sequences present at high frequency in bacterially derived plasmid DNA (Krieg, 1999(Krieg, , 2000. To reduce the inflammation response induced by plasmid DNA, depletion of macrophages before systematic administration has been proven to be an effective approach to enhance gene transfection efficiency of lipoplexes (Sakurai et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

Transient Depletion of Kupffer Cells Leads to Enhanced Transgene Expression in Rat Liver Following Retrograde Intrabiliary Infusion of Plasmid DNA and DNA Nanoparticles

et al. 2011

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In this report, we have demonstrated that by temporarily removing Kupffer cells (KCs), the transgene expression levels mediated by retrograde intrabiliary infusion (RII) of plasmid DNA, polyethylenimine-DNA, and chitosan nanoparticles were enhanced by 1,927-, 131-, and 23,450-fold, respectively, in comparison with the respective groups without KC removal. KC removal also led to significantly prolonged transgene expression in the liver that received all three carriers. This increased transgene expression was correlated with significantly reduced serum tumor necrosis factor-a level as an indicator for KC activation. These results suggest that KC activation is a significant contributing factor to the lowered transgene expression by polycation-DNA nanoparticles delivered by RII. More importantly, the combination of RII and transient removal of KCs may be adopted as an effective approach to achieving high and persistent transgene expression in the liver mediated by nonviral nanoparticles.

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“…This would, of course, reduce the risk of adverse immunologic reactions from both the carrier system, as well as the plasmid itself, especially by immunostimulatory CpG motifs. 45 As with all gene therapy strategies, the SB system is associated with some potential problems. In particular, the observed random genomic integration could result in insertional mutagenesis as well as inactivation of an essential gene(s).…”

Section: Nonviral Methods Of Liver-directed Gene Therapy Sleeping Beamentioning

confidence: 99%

“…73,74 Moreover, methylated CpG motifs within the DNA molecules also may increase the likelihood of immune response and subsequent removal of complexes. 45 Interestingly, it has been proposed recently that the liver parenchymal cells internalize naked DNA by receptor-mediated endocytosis, 75 although specific receptor(s) have not been identified. Direct injection of naked plasmid DNA into the liver of cats and rats produced expression of different reporter genes, as well as human ␣1-antitrypsin.…”

Section: Antisensementioning

confidence: 99%

Gene therapy as an alternative to liver transplantation

Kren

Chowdhury

et al. 2002

Liver Transplantation

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Liver transplantation has become a well-recognized therapy for hepatic failure resulting from acute or chronic liver disease. It also plays a role in the treatment of certain inborn errors of metabolism that do not directly injure the liver. In fact, the liver maintains a central role in many inherited and acquired genetic disorders. There has been a considerable effort to develop new and more effective gene therapy approaches, in part, to overcome the need for transplantation as well as the shortage of donor livers. Traditional gene therapy involves the delivery of a piece of DNA to replace the faulty gene. More recently, there has been a growing interest in the use of gene repair to correct certain genetic defects. In fact, targeted gene repair has many advantages over conventional replacement strategies. In this review, we will describe a variety of viral and nonviral strategies that are now available to the liver. The ever-growing list includes viral vectors, antisense and ribozyme technology, and the Sleeping Beauty transposon system. In addition, targeted gene repair with RNA/DNA oligonucleotides, small-fragment homologous replacement, and triplex-forming and single-stranded oligonucleotides is a long-awaited and potentially exciting approach. Although each method uses different mechanisms for gene repair and therapy, they all share a basic requirement for the efficient delivery of DNA. (Liver

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Direct Immunologic activities of CpG DNA and implications for gene therapy

Cited by 101 publications

References 70 publications

Poly-L-glutamate, an anionic polymer, enhances transgene expression for plasmids delivered by intramuscular injection with in vivo electroporation

Poly-L-glutamate, an anionic polymer, enhances transgene expression for plasmids delivered by intramuscular injection with in vivo electroporation

Transient Depletion of Kupffer Cells Leads to Enhanced Transgene Expression in Rat Liver Following Retrograde Intrabiliary Infusion of Plasmid DNA and DNA Nanoparticles

Gene therapy as an alternative to liver transplantation

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