Members of the Burkholderia cepacia complex (Bcc) cause chronic opportunistic lung infections in people with cystic fibrosis (CF), resulting in a gradual lung function decline and, ultimately, patient death. The Bcc is a complex of 20 species and is rarely eradicated once a patient is colonized; therefore, vaccination may represent a better therapeutic option. We developed a new proteomics approach to identify bacterial proteins that are involved in the attachment of Bcc bacteria to lung epithelial cells. Fourteen proteins were reproducibly identified by two-dimensional gel electrophoresis from four Bcc strains representative of two Bcc species: Burkholderia cenocepacia, the most virulent, and B. multivorans, the most frequently acquired. Seven proteins were identified in both species, but only two were common to all four strains, linocin and OmpW. Both proteins were selected based on previously reported data on these proteins in other species. Escherichia coli strains expressing recombinant linocin and OmpW showed enhanced attachment (4.2-and 3.9-fold) to lung cells compared to the control, confirming that both proteins are involved in host cell attachment. Immunoproteomic analysis using serum from Bcc-colonized CF patients confirmed that both proteins elicit potent humoral responses in vivo. Mice immunized with either recombinant linocin or OmpW were protected from B. cenocepacia and B. multivorans challenge. Both antigens induced potent antigen-specific antibody responses and stimulated strong cytokine responses. In conclusion, our approach identified adhesins that induced excellent protection against two Bcc species and are promising vaccine candidates for a multisubunit vaccine. Furthermore, this study highlights the potential of our proteomics approach to identify potent antigens against other difficult pathogens.
Expression of recombinant proteins in the baculovirus/insect cell expression system is employed because it enables post-translational protein modification and high yields of recombinant protein. The system is capable of facilitating the functional expression of many proteins - either secreted or intracellularly located within infected insect cells. Strategies for the isolation and extraction of soluble proteins are presented in this chapter and involve selective cell lysis, precipitation and chromatography. Protein insolubility, following recombinant expression in insect cells, can occur. However, using the methods described herein, it is possible to extract and purify insoluble protein using affinity, ion-exchange and gel filtration chromatography. Indeed, protein insolubility often aids protein purification.
a b s t r a c tBackground: Human metapneumovirus (HMPV) has been shown to cause respiratory infection, accounting for approximately 7% of all such disease, and contributes to the development of asthma in humans. HMPV has a worldwide distribution with infectivity rates approaching 100%, and immunocompromised patients are particularly at risk from viral exposure. No anti-HMPV vaccine is available and diagnosis is primarily based on in-house molecular or serological tests, in part due to limited availability of recombinant HMPV antigens. Objective: To generate a panel of HMPV-derived recombinant antigens, develop standardised ELISA systems for HMPV IgG detection and explore the nature of B cell memory against HMPV to underpin future vaccine studies. Study design: HMPV viral RNA was isolated from a clinical specimen and RT-PCR was conducted. The HMPV M and P genes were cloned and expressed in Escherichia coli. The HMPV N gene was cloned and expressed in insect cells using the baculovirus expression system. Each purified recombinant antigens was subsequently employed in HMPV-specific ELISA. Results: High-level expression, and purification, of both HMPV matrix (M) (10 mg/g cells) and phosphoprotein (P) (3.82 mg/g cells) were achieved in an E. coli expression system. Recombinant HMPV (N) was successfully expressed in, and purified from the baculovirus expression system. Overall, a 99% HMPV IgG seroprevalence was observed (n = 96) using HMPV M-, N-and P-ELISA, respectively. The M antigen proved to be the most diagnostically useful with 99% of specimens tested exhibiting anti-M protein reactivity. A high correlation was observed between anti-M and N IgG reactivity (r = 0.96), with significant correlation also evident for anti-N and P IgG reactivity (r = 0.74). Lowest correlation was evident for anti-M and P IgG reactivity (r = 0.57). Finally, the first demonstration of HMPV-specific B cell memory (ranging 1-15 spot forming cells (SFC)/million cells) was achieved against M and P antigens in 40% of individuals tested. Conclusion: This work describes robust diagnostic systems for HMPV and new insight into antigen-specific B cell memory against HMPV.
RATIONALE: Forestry and field workers who work outdoors are at high risk of Hymenoptera stings and may develop occupation-related allergies after being stung. We reported that approximately 40% of these workers had specific IgE to Hymenoptera venom. However, clinical surveys of Hymenoptera stings in the occupational setting and prescription of adrenaline injector to affected workers have rarely been reported. We surveyed outdoor workers in Japan who had experienced an anaphylactic reaction after a Hymenoptera sting to examine the rate of prescription of adrenaline injectors. METHODS: Questionnaires on Hymenoptera stings were completed by 1353 male forestry and field workers, and 365 (231 men, 134 women) office workers who acted as controls between July and November 2009. Among the participants, 294 had experienced anaphylaxis after a Hymenoptera sting. RESULTS: Among the subjects, 184, 25, 24, and 61 had experienced anaphylaxis of Mueller grade 1, 2, 3, and 4, respectively. Toxic systemic reactions due to multiple Hymenoptera stings were excluded from the analysis. A prescription of an adrenaline injector was given to only 45 (24%) subjects who had experienced grade 1 anaphylaxis, 7 (28%) who had grade 2, 2 (8%) who had grade 3, and 16 (26%) who had grade 4. These results indicate that a prescription of adrenaline injector was given to only 20% of subjects who had experienced an anaphylactic reaction after a Hymenoptera sting in Japan. CONCLUSIONS: Adrenaline injectors should be prescribed to Japanese forestry and field workers who work outdoors and have experienced anaphylaxis due to a Hymenoptera sting.
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