Title | In vitro assessment of halobacterial gas vesicles as a Chlamydia vaccine display and delivery system. |
Publication Type | Journal Article |
Year of Publication | 2012 |
Authors | Childs TS, Webley WC |
Journal | Vaccine |
Volume | 30 |
Issue | 41 |
Pagination | 5942-8 |
Date Published | 2012 Sep 7 |
ISSN | 1873-2518 |
Abstract | Chlamydia trachomatis is the leading cause of bacterial sexually transmitted disease worldwide and while antibiotic treatment is effective in eliminating the pathogen, up to 70% of all infections are asymptomatic. Despite sustained efforts over the past 2 decades, an effective chlamydial vaccine remains elusive, due in large part to the lack of an effective delivery system. We explored the use of gas vesicles derived from Halobacterium salinarium as a potential display and delivery vehicle for chlamydial antigens of vaccine interest. Various size gene fragments coding for the major outer membrane protein (MOMP), outer membrane complex B (OmcB) and polymorphic outer membrane protein D (PompD) were integrated into and expressed as part of the gas vesicle protein C (gvpC) on the surface of these stable structures. The presence of the recombinant proteins was confirmed by Western blots probed using anti-gvpC and anti-Chlamydia antibodies as well as sera from Chlamydia-positive patients. Tissue culture evaluation revealed stability and a time-dependent degradation of recombinant gas vesicles (r-Gv) in human and animal cell lines. In vitro assessment using human foreskin fibroblasts (HFF) confirmed Toll-like receptor (TLR) 4 and 5 engagement by wild type and r-Gv, leading to MyD88 activation, TNF-α, IL-6 and IL-12 production. The data suggest that r-GV could be an effective, naturally adjuvanting, time-release antigen delivery system for immunologically relevant Chlamydia vaccine antigens which are readily recognized by human immune sera. |
DOI | 10.1016/j.vaccine.2012.07.038 |
Alternate Journal | Vaccine |
PubMed ID | 22846397 |
Department of Microbiology