Direct Current Helium Plasma for In vivo Delivery of Plasmid DNA Encoding Erythropoietin to Murine Skin.

The use of electric fields in vivo to deliver DNA, called electroporation, has the potential to broadly impact vaccination and disease treatment. The evidence for this has emerged from a large number of recently completed and ongoing clinical trials. The methods for applying electric fields to tissues traditionally involve contact between metal electrodes and the tissue. In this study, we investigated the use of helium plasma as a noncontact method for electrically treating tissue in a manner that results in the uptake and expression of foreign DNA in murine skin. More specifically, our goal was to demonstrate that DNA encoding a model-secreted protein could be delivered, detected in the blood, and remain functional to produce its known biological effect. Murine erythropoietin (EPO) was the model-secreted protein. Results clearly demonstrated that an intradermal DNA injection followed by plasma treatment for 2 min resulted in elevated levels of EPO in the blood and corresponding hemoglobin increases that were statistically significant relative to DNA injection alone.

Electrogenetherapy of B16.F10 murine melanoma tumors with an interleukin-28 expressing DNA plasmid.

Augmented delivery of cytokine-expressing DNA plasmids to subcutaneous tumors has been demonstrated to result in a level of enhanced anti-tumor activity. One delivery enhancement method which has been evaluated is in vivo electroporation (EP), a contact-dependent delivery technique where electric pulses are hypothesized to augment the transfer of DNA into cells and tissues through the induction of temporary cell membrane pores. Previous work by members of our group, as well as others, has demonstrated the anti-tumor effects of DNA plasmids expressing the cytokines IL-12 and IL-15. In this report the potential anti-tumor activity of a relatively newly-described cytokine, IL-28, was measured when administered intratumorally as a DNA expression plasmid (designated pIL28) to established murine (B16.F10) melanoma tumors. The administration of the IL-28 expressing plasmid was performed through enhanced delivery methods. One method was EP and the other a non-contact dependent technique using a helium plasma stream. IL-28 is a member of the type III interferon family of cytokines that has been characterized as possessing potent anti-viral activity. This cytokine has been demonstrated to function as an adjuvant in small animal model vaccination protocols and stimulates CD8+ CTL responses. In addition, stimulation of anti-tumor activity has been demonstrated in several studies using IL-28. Based on these activities, it was hypothesized that this cytokine could, when delivered through a DNA expression plasmid, mediate anti-tumor activity. The results of this study indicated that enhanced delivery of pIL-28 resulted in attenuation of tumor growth, compared with non-enhanced delivery. Of note, this is the first proof-of-concept experiment, of our knowledge, documenting the ability of a non-contact dependent helium plasma-based delivery method to mediate the enhancement of an anti-tumor effect by a cytokine-expressing DNA plasmid. This suggests the use of the helium plasma delivery method as an alternative or adjunctive method to EP for the effective delivery of agents that possess potential anti-tumor activity.

Non-contact helium-based plasma for delivery of DNA vaccines. Enhancement of humoral and cellular immune responses.

Non-viral in vivo administration of plasmid DNA for vaccines and immunotherapeutics has been hampered by inefficient delivery. Methods to enhance delivery such as in vivo electroporation (EP) have demonstrated effectiveness in circumventing this difficulty. However, the contact-dependent nature of EP has resulting side effects in animals and humans. Noncontact delivery methods should, in principle, overcome some of these obstacles. This report describes a helium plasma-based delivery system that enhanced humoral and cellular antigen-specific immune responses in mice against an intradermally administered HIV gp120-expressing plasmid vaccine (pJRFLgp120). The most efficient plasma delivery parameters investigated resulted in the generation of geometric mean antibody-binding titers that were 19-fold higher than plasmid delivery alone. Plasma mediated delivery of pJRFLgp120 also resulted in a 17-fold increase in the number of interferon-gamma spot-forming cells, a measure of CD8+ cytotoxic T cells, compared with non-facilitated plasmid delivery. This is the first report demonstrating the ability of this contact-independent delivery method to enhance antigen-specific immune responses against a protein generated by a DNA vaccine.

Serosurveillance of eastern equine encephalitis virus in amphibians and reptiles from Alabama, USA.

Eastern equine encephalitis virus (EEEV) is among the most medically important arboviruses in North America, and studies suggest a role for amphibians and reptiles in its transmission cycle. Serum samples collected from 351 amphibians and reptiles (27 species) from Alabama, USA, were tested for the presence of antibodies against EEEV. Frogs, turtles, and lizards showed little or no seropositivity, and snakes had high seropositivity rates. Most seropositive species were preferred or abundant hosts of Culex spp. mosquitoes at Tuskegee National Forest, that target ectothermic hosts. The cottonmouth, the most abundant ectotherm sampled, displayed a high prevalence of seropositivity, indicating its possible role as an amplification and/or over-wintering reservoir for EEEV.