Gene transfer into human hematopoietic progenitor cells with an episomal vector carrying an S/MAR element

Papapetrou, Eirini P.; Ziros, Panos G.; Micheva, Ilina; Zoumbos, Nicholas; Athanassiadou, Aglaia

doi:10.1038/sj.gt.3302593

Cited by 81 publications

(97 citation statements)

References 43 publications

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“…Minicircles containing an SV40 origin of replication and an SMAR were not episomally replicative following partial hepatectomy in the current study. These data are in line with observations of Papapetrou et al 45 who showed that 4 weeks after transduction of human hematopoietic progenitor cells with a plasmid containing an SMAR, DNA was retained in less than 1% of the transduced cells. In contrast, mitotic stability of an episomal vector containing a human SMAR has been shown in in vitro studies.…”

Section: Adenoviral and Hydrodynamic Transfersupporting

confidence: 81%

Direct comparison of hepatocyte-specific expression cassettes following adenoviral and nonviral hydrodynamic gene transfer

et al. 2008

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Hepatocytes are a key target for treatment of inborn errors of metabolism, dyslipidemia and coagulation disorders. The development of potent expression cassettes is a critical target to improve the therapeutic index of gene transfer vectors.Here we evaluated 22 hepatocyte-specific expression cassettes containing a human apo A-I transgene following hydrodynamic transfer of plasmids or adenoviral transfer with E1E3E4-deleted vectors in C57BL/6 mice. The DC172 promoter consisting of a 890 bp human a 1 -antitrypsin promoter and two copies of the 160 bp a 1 -microglobulin enhancer results in superior expression levels compared to constructs containing the 1.5 kb human a 1 -antitrypsin promoter, the 790 bp synthetic liver-specific promoter or the DC190 promoter containing a 520 bp human albumin promoter and two copies of the 99 bp prothrombin enhancer. The most potent expression cassette consists of the DC172 promoter upstream of the transgene and two copies of the hepatic control region-1. Minicircles containing this expression cassette induce persistent physiological human apo A-I or human factor IX levels after hydrodynamic transfer. In conclusion, in this comparative study of 22 hepatocyte-specific expression cassettes, the DC172 promoter in combination with two copies of the hepatic control region-1 induces the highest expression levels following hydrodynamic and adenoviral transfer.

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Section: Adenoviral and Hydrodynamic Transfersupporting

confidence: 81%

Direct comparison of hepatocyte-specific expression cassettes following adenoviral and nonviral hydrodynamic gene transfer

et al. 2008

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“…23 Importantly, these properties are conferred without the need for virus-encoded proteins or selective pressure. 21,24 Mitotic stability appears to be provided by direct interaction of the S/MAR element with components of the nuclear matrix, 23,25 including the scaffold attachment factor A protein, which is the principal component of cellular chromatin and chromosomes. 26 Furthermore, this interaction probably brings the S/MAR plasmids into contact with the host replication machinery, which is located on the nuclear matrix, thereby facilitating replication once per cell cycle and hence extra-chromosomal stability.…”

Section: Introductionmentioning

confidence: 99%

Persistent episomal transgene expression in liver following delivery of a scaffold/matrix attachment region containing non-viral vector

et al. 2008

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An ideal gene therapy vector should enable persistent transgene expression without limitations of safety and reproducibility. Here we report the development of a non-viral episomal plasmid DNA (pDNA) vector that appears to fulfil these criteria. This pDNA vector combines a scaffold/matrix attachment region (S/MAR) with a human liver-specific promoter (alpha1-antitrypsin (AAT)) in such a way that long-term expression is enabled in murine liver following hydrodynamic injection. Long-term expression is demonstrated by monitoring the longitudinal luciferase expression profile for up to 6 months by means of in situ bioluminescent imaging. All relevant control pDNA constructs expressing luciferase are unable to sustain significant transgene expression beyond 1 week post-administration. We establish that this shutdown of expression is due to promoter methylation. In contrast, the S/MAR element appears to inhibit methylation of the AAT promoter thereby preventing transgene silencing. Although this vector appears to be maintained as an episome throughout, we have no evidence for its establishment as a replicating entity. We conclude that the combination of a mammalian, tissue-specific promoter with the S/MAR element is sufficient to drive long-term episomal pDNA expression of genes in vivo

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“…19 The initial selection step, however, is critical to enrich the mitotically stable episomal plasmids in vitro, and lack of selective pressure results in less than 1% of replicating cells retaining the vector after 1 month. 7,20 Both in vitro and in vivo the stable attachment of S/MAR plasmid to the chromatin and its subsequent replication is a very rare event. S/MAR-plasmid attachment appears to require a reorganization of chromatin during cell division.…”

Section: Discussionmentioning

confidence: 99%

Non-viral S/MAR vectors replicate episomally in vivo when provided with a selective advantage

et al. 2010

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Non-viral S/MAR vectors replicate episomally in vivo when provided with a selective advantage SP Wong, O Argyros, C Coutelle and RP HarbottleThe ideal gene therapy vector should enable persistent expression without the limitations of safety and reproducibility. We previously reported that a prototype plasmid vector, containing a scaffold matrix attachment region (S/MAR) domain and the luciferase reporter gene, showed transgene expression for at least 6 months following a single administration to MF1 mice. Following partial hepatectomy of the animals, however, we found no detectable vector replication and subsequent propagation in vivo. To overcome this drawback, we have now developed an in vivo liver selection strategy by which liver cells transfected with an S/MAR plasmid are provided with a survival advantage over non-transfected cells. This allows an enrichment of vectors that are capable of replicating and establishing themselves as extra-chromosomal entities in the liver. Accordingly, a novel S/MAR plasmid encoding the Bcl-2 gene was constructed; Bcl-2 expression confers resistance against apoptosis-mediated challenges by the Fas-activating antibody Jo2. Following hydrodynamic delivery to the livers of mice and frequent Jo2 administrations, we demonstrate that this Bcl-luciferase S/MAR plasmid is indeed capable of providing sustained luciferase reporter gene expression for over 3 months and that this plasmid replicates as an episomal entity in vivo. These results provide proof-of-principle that S/MAR vectors are capable of preventing transgene silencing, are resistant to integration and are able to confer mitotic stability in vivo when provided with a selective advantage.

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Gene transfer into human hematopoietic progenitor cells with an episomal vector carrying an S/MAR element

Cited by 81 publications

References 43 publications

Direct comparison of hepatocyte-specific expression cassettes following adenoviral and nonviral hydrodynamic gene transfer

Direct comparison of hepatocyte-specific expression cassettes following adenoviral and nonviral hydrodynamic gene transfer

Persistent episomal transgene expression in liver following delivery of a scaffold/matrix attachment region containing non-viral vector

Non-viral S/MAR vectors replicate episomally in vivo when provided with a selective advantage

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