Mucosal vaccination with a recombinant OprF-I vaccine of Pseudomonas aeruginosa in healthy volunteers: comparison of a systemic vs. a mucosal booster schedule.

We compared the immunogenicity of two vaccination schedules with either a systemic or a mucosal booster, both following a mucosal primary vaccination with a recombinant outer membrane fusion protein of Pseudomonas aeruginosa (OprF-I) in 12 healthy volunteers. The systemic booster induced higher levels of OprF-I-specific serum antibodies of IgG isotype, with a mean+/-S.E.

Effect of in situ expression of human interleukin-6 on antibody responses against Salmonella typhimurium antigens.

In an attempt to trigger increased mucosal secretory immune responses against bacterial surface antigens, we constructed an optimized human interleukin (hIL)-6-secreting Salmonella typhimurium strain (X4064(pCH1A+pYL3E)), utilizing the hemolysin (Hly) exporter for secretory delivery of a functional hIL-6-hemolysin fusion protein (hIL-6-HlyA(s)). Through stable introduction of a second hIL-6-HlyA(s) expression plasmid (pYL3E) in the previously described X4064(pCH1A) strain, hIL-6-HlyA(s) secretion efficiencies were increased by at least 10-fold. As pCH1A in the parental strain, pYL3E was stable in vitro in the absence of antibiotic selection and in vivo neither did plasmids interfere in their stabilities.

Secretory delivery of recombinant proteins in attenuated Salmonella strains: potential and limitations of Type I protein transporters.

Live attenuated Salmonella strains have been extensively explored as oral delivery systems for recombinant vaccine antigens and effector proteins with immunoadjuvant and immunomodulatory potential. The feasibility of this approach was demonstrated in human vaccination trials for various antigens. However, immunization efficiencies with live vaccines are generally significantly lower compared to those monitored in parenteral immunizations with the same vaccine antigen.

Cloning and hemolysin-mediated secretory expression of a codon-optimized synthetic human interleukin-6 gene in Escherichia coli.

Previously, we constructed human interleukin-6 (hIL-6)-secreting Escherichia coli and Salmonella typhimurium strains by fusion of the hIL-6 cDNA to the HlyA(s) secretional signal, utilizing the hemolysin export apparatus for extracellular delivery of a bioactive hIL-6-hemolysin (hIL-6-HlyA(s)) fusion protein. Molecular analysis of the secretion process revealed that low secretion levels were due to inefficient gene expression. To adapt the codon usage in hIL-6 cDNA to the E.

An extended boiling method for small-scale preparation of plasmid DNA tailored to long-range automated sequencing.

Automated fluorescence sequencing depends on high-quality plasmid DNA, which is conveniently prepared by minipreparation procedures. While those procedures are effective for high-copy number plasmids, purity and yields of low-copy number plasmids are often not sufficient to achieve reasonable sequencing results. Here, we describe a reproducible and cheap procedure for the small-scale preparation of plasmid DNA, which is based on the original Holmes and Quigley protocol, comprising a boiling and two selective precipitation steps.