Safety and biodistribution studies of an HSV multigene vector following intracranial delivery to non-human primates

Wolfe, Darren; Niranjan, Ajay; Trichel, Anita; Wiley, Clayton A.; Ozuer, Ali; Kanal, Emanuel; Kondziolka, Douglas; Krisky, David; Goss, James R.; DeLuca, Neal A.; Murphey‐Corb, Michael; Jc, Glorioso

doi:10.1038/sj.gt.3302336

Cited by 18 publications

(9 citation statements)

References 35 publications

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“…16 In this study, the feasibility of administering a replicationselective HSV-1 vector by CED into normal brain was therefore examined in detail. In spite of the large number of preclinical studies that have involved the direct intracranial administration of HSV-based vectors, 17,18,[20][21][22][23][24][26][27][28][29][30][31][32][33][34][35][36][37][38][39][40][41] remarkably this represents the first published study to evaluate the distribution properties of an HSV-1 vector using appropriate infusion parameters in both gray and white matter, as well as evaluation of strategies to improve vector distribution.…”

Section: Discussionmentioning

confidence: 99%

“…16 Clearly this has the potential to make the effective intracranial administration of HSV-1-based vectors unachievable. Nevertheless, in addition to the aforementioned clinical trials, [6][7][8][9] HSV vectors have been administered by stereotactic injection into normal mouse, [17][18][19] rat [20][21][22][23][24][25][26] and primate brains, [20][21][22][23][24][25][26][27][28] animal models of high-grade glioma, [29][30][31][32][33][34][35] mucopolysaccharidosis type VII, 36 GM2 gangliosidosis 37 and Parkinson's disease, [37][38][39] as well as being administered by CED into a glioma rat model. 40 In view of there being this large number of studies, it is surprising that to date no attempt has been made to systematically evaluate and optimize the delivery of these vectors directly into the brain.…”

Section: Introductionmentioning

confidence: 99%

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Evaluation and optimization of the administration of a selectively replicating herpes simplex viral vector to the brain by convection-enhanced delivery

et al. 2011

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The direct intraparenchymal administration of oncolytic viral vectors by convection-enhanced delivery (CED) represents a promising new treatment strategy for malignant gliomas. However, there is no evidence to suggest that oncolytic viruses as large as herpes simplex virus-1 (HSV-1) can be administered by CED, as this has not been systematically examined in an animal model. In this study, the administration of a herpes simplex viral vector, HSV1, has been evaluated in detail in the gray and white matter of both rat and pig models, using high flow-rate infusions, co-infusing heparin or preinfusing the tissue with an isotonic albumin solution. Rat HSV-1 infusions at both slow (0.5 ml min À1 ) and high infusion rates (2.5 ml min À1 ) led to extensive tissue damage and negligible cell transduction. Co-infusion with heparin led to extensive hemorrhage. Preinfusion of tissue with an isotonic albumin solution facilitated widespread vector distribution and cell transduction in white matter only. Using this approach in pig brain led to widespread vector distribution with extensive transduction of astrocytes and activated microglia. In rat brain, enhanced green fluorescent protein expression peaked 48 h after vector administration and was associated with a vigorous immune response. These findings indicate that direct infusions of HSV-1-based viral vectors into the brain lead to minimal vector distribution, negligible cell transduction and extensive damage. Tissue preinfusion with an isotonic solution prior to vector administration represents an effective technique for achieving widespread HSV-1 distribution.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaluation and optimization of the administration of a selectively replicating herpes simplex viral vector to the brain by convection-enhanced delivery

et al. 2011

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“…Replication-competent Dg34.5 HSV-1 vectors are safe in humans up to 10 5 PFU [21]. The nonreplicating NUREL-C2 HSV-vector has been shown to be safe in rhesus macaques up to 10 9 PFU when infected intracranially [22].…”

Section: Introductionmentioning

confidence: 99%

Enhancement of Th2 responses to replicative herpes simplex virus type 1 vectors by immunomodulative chemotherapy

Peltoniemi

Broberg

Nygårdas

et al. 2006

International Immunopharmacology

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“…3,4,8,[42][43][44] HSV type 1 multigene vector safety and biodistribution have also been studied in non-human primate brain. 45 In non-human primates, CNS transduction efficiency and durability varied with the vector, injection site and method of delivery. For AAV vectors, transduced cells numbered from 444 400 at 8 weeks to 1 296 350 at 3 years, 32 for lentiviral vectors, 764 149 at 1 month for lentiviral vectors 42 titers ranging between 2.75Â10 12 genome copies per ml for AAV2/1, 1.69Â10 13 42 and between 2Â10 10 PFU ml À1 (ref.…”

Section: Discussionmentioning

confidence: 99%

Gene transfer to the rhesus monkey brain using SV40-derived vectors is durable and safe

et al. 2011

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Gene transfer to central nervous system (CNS) has been approached using various vectors. Recombinant SV40-derived vectors (rSV40s) transduce human neurons and microglia effectively in vitro and in rodent brains in vivo, so we tested rSV40s gene transfer to rhesus monkey CNS in vivo, to characterize the distribution, duration and safety of such gene delivery. We used rSV40s carrying HIV-1 RevM10 with a carboxyl-terminal AU1 epitope tag as a marker, and others with the antioxidant enzymes, Cu/Zn superoxide dismutase and glutathione peroxidase. Vectors were injected stereotaxically into the caudate nucleus. Transgene expression was studied at 1 and 6 months by immunostaining serial brain sections. After intraparenchymal administration, numerous transgene-expressing cells were seen, with a longitudinal extent of 20 mm. In neurons and, more rarely, microglial cells, transgene expression remained strong throughout the 6-month study period. Astrocytes and oligodendroglia were not transduced. No evidence of inflammation or tissue damage was observed. SV40-derived vectors may thus be useful for long-term gene expression in the monkey brain and, potentially, in the human brain.

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Safety and biodistribution studies of an HSV multigene vector following intracranial delivery to non-human primates

Cited by 18 publications

References 35 publications

Evaluation and optimization of the administration of a selectively replicating herpes simplex viral vector to the brain by convection-enhanced delivery

Evaluation and optimization of the administration of a selectively replicating herpes simplex viral vector to the brain by convection-enhanced delivery

Enhancement of Th2 responses to replicative herpes simplex virus type 1 vectors by immunomodulative chemotherapy

Gene transfer to the rhesus monkey brain using SV40-derived vectors is durable and safe

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