TY - JOUR
T1 - A Burkholderia pseudomallei outer membrane vesicle vaccine provides protection against lethal sepsis
AU - Nieves, Wildaliz
AU - Petersen, Hailey
AU - Judy, Barbara M.
AU - Blumentritt, Carla A.
AU - Russell-Lodrigue, Kasi
AU - Roy, Chad J.
AU - Torres, Alfredo G.
AU - Morici, Lisa A.
PY - 2014/5
Y1 - 2014/5
N2 - The environmental Gram-negative encapsulated bacillus Burkholderia pseudomallei is the causative agent of melioidosis, a disease associated with high morbidity and mortality rates in areas of Southeast Asia and northern Australia in which the disease is endemic. B. pseudomallei is also classified as a tier I select agent due to the high level of lethality of the bacterium and its innate resistance to antibiotics, as well as the lack of an effective vaccine. Gram-negative bacteria, including B. pseudomallei, secrete outer membrane vesicles (OMVs) which are enriched with multiple protein, lipid, and polysaccharide antigens. Previously, we demonstrated that immunization with multivalent B. pseudomallei-derived OMVs protects highly susceptible BALB/c mice against an otherwise lethal aerosol challenge. In this work, we evaluated the protective efficacy of OMV immunization against intraperitoneal challenge with a heterologous strain because systemic infection with phenotypically diverse environmental B. pseudomallei strains poses another hazard and a challenge to vaccine development. We demonstrated that B. pseudomallei OMVs derived from strain 1026b afforded significant protection against septicemic infection with B. pseudomallei strain K96243. OMV immunization induced robust OMV-, lipopolysaccharide-, and capsular polysaccharide-specific serum IgG (IgG1, IgG2a, and IgG3) and IgM antibody responses. OMV-immune serum promoted bacterial killing in vitro, and passive transfer of B. pseudomallei OMV immune sera protected naive mice against a subsequent challenge. These results indicate that OMV immunization provides antibody-mediated protection against acute, rapidly lethal sepsis in mice. B. pseudomallei-derived OMVs may represent an efficacious multivalent vaccine strategy against melioidosis.
AB - The environmental Gram-negative encapsulated bacillus Burkholderia pseudomallei is the causative agent of melioidosis, a disease associated with high morbidity and mortality rates in areas of Southeast Asia and northern Australia in which the disease is endemic. B. pseudomallei is also classified as a tier I select agent due to the high level of lethality of the bacterium and its innate resistance to antibiotics, as well as the lack of an effective vaccine. Gram-negative bacteria, including B. pseudomallei, secrete outer membrane vesicles (OMVs) which are enriched with multiple protein, lipid, and polysaccharide antigens. Previously, we demonstrated that immunization with multivalent B. pseudomallei-derived OMVs protects highly susceptible BALB/c mice against an otherwise lethal aerosol challenge. In this work, we evaluated the protective efficacy of OMV immunization against intraperitoneal challenge with a heterologous strain because systemic infection with phenotypically diverse environmental B. pseudomallei strains poses another hazard and a challenge to vaccine development. We demonstrated that B. pseudomallei OMVs derived from strain 1026b afforded significant protection against septicemic infection with B. pseudomallei strain K96243. OMV immunization induced robust OMV-, lipopolysaccharide-, and capsular polysaccharide-specific serum IgG (IgG1, IgG2a, and IgG3) and IgM antibody responses. OMV-immune serum promoted bacterial killing in vitro, and passive transfer of B. pseudomallei OMV immune sera protected naive mice against a subsequent challenge. These results indicate that OMV immunization provides antibody-mediated protection against acute, rapidly lethal sepsis in mice. B. pseudomallei-derived OMVs may represent an efficacious multivalent vaccine strategy against melioidosis.
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U2 - 10.1128/CVI.00119-14
DO - 10.1128/CVI.00119-14
M3 - Article
C2 - 24671550
AN - SCOPUS:84899752262
SN - 1556-6811
VL - 21
SP - 747
EP - 754
JO - Clinical and Vaccine Immunology
JF - Clinical and Vaccine Immunology
IS - 5
ER -