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Protection against infection is the hallmark of immunity and the basis of effective vaccination. For a variety of reasons there is a great demand to develop new, safer and more effective vaccine platforms. In this regard, while ‘first-generation’ DNA vaccines were poorly immunogenic, new genetic ‘optimization’ strategies and the application of in vivo electroporation (EP) have dramatically boosted...
Electroporation (EP) of either muscle or skin has proven to be an efficient method for increasing DNA-based vaccine delivery and immunogenicity in small and large animals. Previous comparative studies in large animals suggest that intramuscular (i.m.) DNA EP delivery appears to favor cellular immunity, while intradermal (i.d.) EP delivery may favor humoral immunity. While current EP devices are primarily...
To differentiate prenatal effects of plasmid growth hormone-releasing hormone (GHRH) treatment from maternal effects mediated by lactation on long-term growth of offspring, a cross-fostering study was designed. Pregnant sows (n=12) were untreated (n=6) or received either a Wt-GHRH (n=2) or HV-GHRH (n=4) plasmid. At birth, half of each litter was cross-fostered (treated to controls and controls to...
Enhancing the expression of DNA vaccines requires that specific conditions of delivery are optimized. We describe experiments using adaptive constant-current electroporation (EP) in mice and pigs examining parameters such as target muscle, delay between plasmid delivery and onset of EP pulses and DNA vaccine formulation; our studies show that concentrated formulations result in better expression and...
DNA vaccines are a promising technology. Historically, however, the ability of DNA vaccines to induce high response rates and strong immune responses, especially antibody responses, in non-human primates and human clinical trials has proven suboptimal. Here, we performed a pilot study in rhesus macaques to evaluate whether we could improve the immunogenicity of DNA vaccines through the use of adjuvant...
In an effort to improve DNA vaccine immune potency electroporation has emerged as a method of delivery of plasmids to target tissues. However, few studies have examined the use of this technology to deliver plasmid vaccines to the skin. Here we studied the effect of electroporation on DNA vaccine potency and gene delivery using skin as a target tissue in larger animal species. Using a pig model, we...
This study was designed to measure the effects of plasmid growth hormone-releasing hormone (GHRH) supplementation on LL-2 (Lewis lung adenocarcinoma) tumor-bearing immunocompetent mice. Male and female mice (n = 20/group/experiment) received 2.5 x 10 6 LL-2 cells in the left flank. One day later, we injected the mice intramuscularly with 20 μg of a myogenic plasmid, pSP-hGHRH or pSP-βgal,...
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