Direct gene delivery to synovium: An evaluation of potential vectors in vitro and in vivo

Nita, Ioana M.; Ghivizzani, Steven C.; Galea‐Lauri, Joanna; Bandara, Geethani; Georgescu, Helga I.; Robbins, Paul D.; Evans, Christopher H.

doi:10.1002/art.1780390515

Cited by 148 publications

(119 citation statements)

References 26 publications

(10 reference statements)

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“…Initial studies by Nita et al 8 indicated that first-generation HSV vectors were efficient at transferring exogenous genes to the synovial lining of the joint, but also produced substantial inflammatory and cytotoxic effects following intra-articular delivery. Recently, second-generation HSV vectors have been created which are considerably less toxic than the first-generation vectors when tested in a number of cell types.…”

Section: Resultsmentioning

confidence: 99%

“…In an effort to devise a more practical strategy, several laboratories have been exploring the use of direct, in vivo gene delivery to the joint. [7][8][9][10][11] A number of viral and nonviral vectors have been found to deliver DNA to synovial cells efficiently. We have recently shown that direct intra-articular injection of adenoviral vectors encoding soluble receptors for interleukin-1 (IL-1) and tumor necrosis factor ␣ (TNF␣) were able to block effectively many of the pathologies associated with antigen-induced arthritis in rabbits.…”

Section: Introductionmentioning

confidence: 99%

“…Finally, preliminary studies with a first-generation vector have shown that HSV is highly infectious for synovial cells in culture and in experimental animals. 8 During infection with wild-type HSV, a viral tegument polypeptide, VP16, activates transcription of five immediate-early (IE) genes encoding infected cell polypeptide (ICP) 0, 4, 22, 27 and 47. 15,16 Expression of these IE genes is essential for regulating the expression of subsequent early and late viral genes necessary for HSV replication.…”

Section: Introductionmentioning

confidence: 99%

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Intra-articular delivery of a herpes simplex virus IL-1Ra gene vector reduces inflammation in a rabbit model of arthritis

et al. 1999

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To evaluate the use of HSV-based vectors for arthritis gene tained up to 12 ng/ml of soluble receptor that persisted at therapy we have constructed a first-generation, ICP4detectable, but reduced levels for at least 7 days. When deficient, replication defective herpes simplex virus (HSV) tested in an experimental model of arthritis generated by vector (S/0−) and a second-generation HSV vector derivaintra-articular overexpression of interleukin-1␤ using retrotive (T/0−) deficient for the immediate-early genes ICP4, virus transduced synovial cells, the HSV T/0− vector 22 and 27, each carrying a soluble TNF receptor or IL-1 expressing the interleukin-1 receptor antagonist was found receptor antagonist transgene cassette. A rabbit synovialto inhibit leukocytosis and synovitis significantly. The fibroblast line in culture, infected by either vector enabled improved levels and duration of intra-articular transgene high-level expression of the transgene product. However, expression achieved via HSV-mediated gene delivery sugfollowing a single intra-articular injection of the vectors into gest that an HSV vector system could be used for therarabbit knee joints, only the second-generation, HSV T/0− peutic applications in patients with rheumatoid arthritis vector expressed detectable levels of soluble TNFR in syn-(RA) and other joint-related inflammatory diseases. ovial fluid. Synovial lavage fluid from inoculated joints con-

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Intra-articular delivery of a herpes simplex virus IL-1Ra gene vector reduces inflammation in a rabbit model of arthritis

et al. 1999

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“…182 The inflamed synovium has been directly targeted in vivo with retrovirus, adenovirus, plasmids complexed with cationic lipids and DNA oligonucleotides serving as decoys for NFkB. [189][190][191][192] Interestingly, in vitro infection of rheumatoid synovial cells with adenovirus expressing an inhibitor of NFkB (IkB␣) has shown that T cells, fibroblasts and macrophages could be infected and was capable of down-regulating expression of inflammatory cytokines whilst sparing the expression of protective cytokines. 193 These findings are of interest as normally T cells or macrophages are non-permissive to adenoviral infection and indicates that these cells exist in the rheumatoid joint in a different physiological state than normal cells.…”

Section: Gene Therapy In Arthritismentioning

confidence: 99%

Immuno- and genetic therapy in autoimmune diseases

et al. 2000

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Animal models of autoimmune disease have been developed that mimic some aspects of the pathophysiology of human disease. These models have increased our understanding of possible mechanisms of pathogenesis at the molecular and cellular level and have been important in the testing, development and validation of new immunotherapies. The susceptibility to develop disease in the majority of these models is polygenic as is the case in humans. The exceptions to this rule are gene knock outs and transgenic models of particular genes which, in particular genetic backgrounds, have also contributed to the understanding of single gene function and their possible contribution to pathogenesis. Gene therapy approaches that target immune functions are being developed with encouraging results, despite the polygenic nature of these diseases. Basically this novel immuno-genetic therapy harnesses the knowledge of immunology with the myriad of biotechnological breakthroughs in vector design and delivery. Autoimmune disease is the result of genetic dysregulation which could be controlled by gene therapy. Here we summarize the genetic basis of these human diseases as well as some of the best characterized murine models. We discuss the strategies for their treatment using immunoand gene therapy. Genes and Immunity (2000) 1, 295-307.

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“…Based on these data, Song et al suggested that extracellular DNA released from the lipoplex is the transfectionally active agent, and that the cationic lipid component serves only to increase pulmonary retention of DNA following systemic administration. 10 Given that naked plasmid DNA is capable of transfecting striated muscle 11,12 , the thyroid gland 13 , the liver 14 , the lung 15 , solid tumors 16 and synovial tissue 17 , we found Song's observations intriguing and believed the hypothesis to be an important conjecture. If the proposal is correct, then any sustained release system for DNA should mediate transfection in the lung.…”

mentioning

confidence: 95%

Cationic lipids are essential for gene delivery mediated by intravenous administration of lipoplexes

1999

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It was recently suggested that intravenously administered plasma as determined by an in vitro transfection assay. In lipoplexes serve as a depot for the extracellular release of spite of this high level of transcriptionally active DNA, there naked DNA and it is the naked DNA that mediates gene was no significant gene expression in the lung or any other delivery in the lung. If this is the mechanism responsible organ tested. In addition, when lipoplex containing a for gene expression, we reasoned that continuous infusion reporter gene was injected, followed by an infusion of nonof plasmid DNA should also result in significant lung coding plasmid DNA as a potential competing molecule for expression in the absence of lipoplexes. Moreover, the DNA released from the lipoplex there was no effect on infusion of non-coding plasmid DNA should inhibit gene gene expression. These experiments indicate that the catdelivery by lipoplexes. Infusion of plasmid DNA at a rate ionic lipid component of the lipoplex functions in an active of 80 g/min into the tail vein of a mouse resulted in a DNA capacity beyond that of a simple passive release matrix for serum concentration of 800 g/ml. This was equivalent to plasmid DNA. a transcriptionally active DNA concentration of 120 g/ml Keywords: DNA; infusion; mechanism; nonviral Lipoplex-mediated gene delivery 1,2 in vivo was demonstrated by the pioneering work of Brigham and colleagues. 3 Since then, many cationic lipid-based gene delivery protocols have entered clinical trials. [4][5][6][7][8][9] Despite this progress, the mechanism(s) by which lipoplexes deliver genes in vivo has not been elucidated.Recently, Song et al 10 injected cationic liposomes intravenously (i.v.) 5 min before an i.v. injection of a reporter gene. Surprisingly, the level of transgene expression in the lung was the same as that obtained following injection of the preformed lipoplex. Based on these data, Song et al suggested that extracellular DNA released from the lipoplex is the transfectionally active agent, and that the cationic lipid component serves only to increase pulmonary retention of DNA following systemic administration. 10 Given that naked plasmid DNA is capable of transfecting striated muscle 11,12 , the thyroid gland 13 , the liver 14 , the lung 15 , solid tumors 16 and synovial tissue 17 , we found Song's observations intriguing and believed the hypothesis to be an important conjecture. If the proposal is correct, then any sustained release system for DNA should mediate transfection in the lung. Potentially, one could obtain gene expression without the adverse effects associated with the cationic lipid.We repeated Liu's experiments and confirmed the observations. The pre-injection of cationic liposomes, followed 5 min later by a luciferase reporter gene, yielded We hypothesized that if free DNA is the active transfection agent in pulmonary gene delivery following i.v. lipoplex injection, then establishing a relatively high steady-state plasma concentration of transcriptionally active DNA would yie...

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Direct gene delivery to synovium: An evaluation of potential vectors in vitro and in vivo

Cited by 148 publications

References 26 publications

Intra-articular delivery of a herpes simplex virus IL-1Ra gene vector reduces inflammation in a rabbit model of arthritis

Intra-articular delivery of a herpes simplex virus IL-1Ra gene vector reduces inflammation in a rabbit model of arthritis

Immuno- and genetic therapy in autoimmune diseases

Cationic lipids are essential for gene delivery mediated by intravenous administration of lipoplexes

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