Fraser Wilkes scite author profile

We have constructed a non-primate lentiviral vector system required for vector production is rev. In addition, we show based on the equine infectious anaemia virus (EIAV). This that the pol encoded dUTPase activity that is found in all system is able to transduce both dividing and non-dividing non-primate lentiviruses is not required. The vectors can cells, including primary cultured hippocampal neurons and be pseudotyped with a range of envelopes including rabies neurons and glia in the adult rat central nervous system G and MLV 4070A and can be concentrated to high titres. (CNS), at efficiencies comparable with HIV-based vectors.The ability of EIAV to infect mitotically inactive cells makes We demonstrate that the only EIAV proteins required for this vector an attractive alternative to the immunodeficiency this activity are gag/pol and that the only accessory protein viruses for gene therapy.

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Daily Treatment with SMTC1100, a Novel Small Molecule Utrophin Upregulator, Dramatically Reduces the Dystrophic Symptoms in the mdx Mouse

Tinsley

et al. 2011

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BackgroundDuchenne muscular dystrophy (DMD) is a lethal, progressive muscle wasting disease caused by a loss of sarcolemmal bound dystrophin, which results in the death of the muscle fibers leading to the gradual depletion of skeletal muscle. There is significant evidence demonstrating that increasing levels of the dystrophin-related protein, utrophin, in mouse models results in sarcolemmal bound utrophin and prevents the muscular dystrophy pathology. The aim of this work was to develop a small molecule which increases the levels of utrophin in muscle and thus has therapeutic potential.Methodology and Principal FindingsWe describe the in vivo activity of SMT C1100; the first orally bioavailable small molecule utrophin upregulator. Once-a-day daily-dosing with SMT C1100 reduces a number of the pathological effects of dystrophin deficiency. Treatment results in reduced pathology, better muscle physiology leading to an increase in overall strength, and an ability to resist fatigue after forced exercise; a surrogate for the six minute walk test currently recommended as the pivotal outcome measure in human trials for DMD.Conclusions and SignificanceThis study demonstrates proof-of-principle for the use of in vitro screening methods in allowing identification of pharmacological agents for utrophin transcriptional upregulation. The best compound identified, SMT C1100, demonstrated significant disease modifying effects in DMD models. Our data warrant the full evaluation of this compound in clinical trials in DMD patients.

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Transduction Patterns of Pseudotyped Lentiviral Vectors in the Nervous System

et al. 2004

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We have developed a non-primate-based lentiviral vector based on the equine infectious anemia virus (EIAV) for efficient gene transfer to the central and peripheral nervous systems. Previously we have demonstrated that pseudotyping lentiviral vectors with the rabies virus glycoprotein confers retrograde axonal transport to these vectors. In the present study we have successfully produced high-titer EIAV vectors pseudotyped with envelope glycoproteins from Rhabdovirus vesicular stomatitis virus (VSV) serotypes (Indiana and Chandipura strains); rabies virus [various Evelyn-Rokitnicki-Abelseth ERA strains and challenge virus standard (CVS)]; Lyssavirus Mokola virus, a rabies-related virus; and Arenavirus lymphocytic choriomeningitis virus (LCMV). These vectors were delivered to the striatum or spinal cord of adult rats or muscle of neonatal mice by direct injection. We report that the lentiviral vectors pseudotyped with envelopes from the VSV Indiana strain, wild-type ERA, and CVS strains resulted in strong transduction in the striatum, while Mokola- and LCMV-pseudotyped vectors exhibited moderate and weak transduction, respectively. Furthermore ERA- and CVS-pseudotyped lentiviral vectors demonstrated retrograde transport and expression in distal neurons after injection in brain, spinal cord, and muscle. The differences in transduction efficiencies and retrograde transport conferred by these envelope glycoproteins present novel opportunities in designing therapeutic strategies for different neurological diseases.

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Lentivector-mediated SMN replacement in a mouse model of spinal muscular atrophy

Azzouz¹,

Le²,

Ralph³

et al. 2004

J. Clin. Invest.

180

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Spinal muscular atrophy (SMA) is a frequent recessive autosomal disorder. It is caused by mutations or deletion of the telomeric copy of the survival motor neuron (SMN) gene, leading to depletion in SMN protein levels. The treatment rationale for SMA is to halt or delay the degeneration of motor neurons, but to date there are no effective drug treatments for this disease. We have previously demonstrated that pseudotyping of the nonprimate equine infectious anemia virus (using the lentivector gene transfer system) with the glycoprotein of the Evelyn-Rokitnicki-Abelseth strain of the rabies virus confers retrograde axonal transport on these vectors. Here, we report that lentivector expressing human SMN was successfully used to restore SMN protein levels in SMA type 1 fibroblasts. Multiple single injections of a lentiviral vector expressing SMN in various muscles of SMA mice restored SMN to motor neurons, reduced motor neuron death, and increased the life expectancy by an average of 3 and 5 days (20% and 38%) compared with LacZ and untreated animals, respectively. Further extension of survival by SMN expression constructs will likely require a knowledge of when and/or where high levels of SMN are needed.

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Lentivector-mediated SMN replacement in a mouse model of spinal muscular atrophy

Azzouz¹,

Le²,

Ralph³

et al. 2004

J. Clin. Invest.

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Fraser Wilkes

Stable gene transfer to the nervous system using a non-primate lentiviral vector

Daily Treatment with SMTC1100, a Novel Small Molecule Utrophin Upregulator, Dramatically Reduces the Dystrophic Symptoms in the mdx Mouse

Transduction Patterns of Pseudotyped Lentiviral Vectors in the Nervous System

Lentivector-mediated SMN replacement in a mouse model of spinal muscular atrophy

Lentivector-mediated SMN replacement in a mouse model of spinal muscular atrophy

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