Abstract
Several genetic diseases caused by deficiencies in enzymes required throughout the body can be treated by enzyme replacement therapy at costs of upward of hundreds of thousands of dollars per year per patient. In the long run, such costs are prohibitive. Gene therapy is therefore an appealing option in that its aim is to treat patients after only a single or very few interventions. Clinical-grade viral vectors can efficiently deliver therapeutic expression cassettes, but such viruses can still be expensive to prepare. By contrast, clinical-grade nonviral nucleic acids are relatively inexpensive to produce but difficult to deliver into cells. In this issue of Molecular Therapy, two reports from the same group describe improvements to two limiting factors of nonviral gene therapy using DNA transposons delivered to the liver.1,2 The authors substantially increased efficiency of delivery of transgenes to the target organ and the amount of therapeutic protein exported per cell following transgene delivery.
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