Proteomic and Functional Analyses of Outer Membrane Vesicles Secreted by Vibrio splendidus

Vibrio splendidus is an important opportunistic pathogen ubiquitously present in the marine environment,exhibiting virulence to a variety of cultured animals.The extracellular products secreted by V.splendidus are crucial to bacterial survival and virulence.In this study,the secretion of outer membrane vesicles(OMVs)by V.splendidus was determined,purified,and morphologically characterized.The protein composition of OMVs was analyzed by proteomic analysis.The results showed that approximately 120 proteins were contained in these OMVs,including outer membrane proteins,flagellins,ABC transporters,protease,and iron regulation proteins,etc.,which were involved in bacterial motility,formation of biofilms and the cell membrane components,and cellular localization based on their structural molecule activity,passive transmembrane transporter activity,channel activity,neurotransmitter receptor activity,extracellular ligand-gated ion channel activity,glutamate receptor activity,ligand-gated ion channel activity,and transmembrane signaling receptor activity.To explore the biological functions of OMVs in V.splendidus,the effects of OMVs on the bacterial adaption to iron limitation,antibiotic,and the coelomic fluid of the Apostichopus japonicus were confirmed.This study is the first time to show that V.splendidus secretes OMVs,and OMVs carry functional proteins that enhance bacterial survival under various stresses.

Newly Detected Transmission of bla_(KPC-2) by Outer Membrane Vesicles in Klebsiella Pneumoniae

Objective The prevalence of carbapenem-resistant Klebsiella pneumoniae(CR-KP)is a global public health problem.It is mainly caused by the plasmid-carried carbapenemase gene.Outer membrane vesicles(OMVs)contain toxins and other factors involved in various biological processes,includingβ-lactamase and antibiotic-resistance genes.This study aimed to reveal the transmission mechanism of OMV-mediated drug resistance of Klebsiella(K.)pneumoniae.Methods We selected CR-KP producing K.pneumoniae carbapenemase-2(KPC-2)to study whether they can transfer resistance genes through OMVs.The OMVs of CR-KP were obtained by ultracentrifugation,and incubated with carbapenem-sensitive K.pneumoniae for 4 h.Finally,the carbapenem-sensitive K.pneumoniae was tested for the presence of bla_(KPC-2)resistance gene and its sensitivity to carbapenem antibiotics.Results The existence of OMVs was observed by the electron microscopy.The extracted OMVs had bla_(KPC-2)resistance gene.After incubation with OMVs,bla_(KPC-2)resistance gene was detected in sensitive K.pneumoniae,and it became resistant to imipenem and meropenem.Conclusion This study demonstrated that OMVs isolated from KPC-2-producing CR-KP could deliver bla_(KPC-2)to sensitive K.pneumoniae,allowing the bacteria to produce carbapenemase,which may provide a novel target for innovative therapies in combination with conventional antibiotics for treating carbapenem-resistant Enterobacteriaceae.

Development and Evaluation of a MAb-Based ELISA for Detection of Chlamy- dophila pneumoniae Infection with Variable Domain 2 and 3 of the Major Outer Membrane protein

Objective This paper aims to develop a monoclonal antibodies （MAbs）- based ELISA for detecting Chlamydophila pneumoniae （C. pneumonioe） antigens in humans with the variable domains （VD） 2 and 3 of the major outer membrane protein （MOMPvD2-VD~） and to assess its sensitivity and specificity by comparing with a widely used MAb that is able to recognize the elementary bodies of C. pneumoniae. Methods MOMPvo2-vo3were overexpressed in Escherichia coil and purified by affinity chromatography. Mice were immunized with the recombinant antigen, and hybridomas secreting MAbs were screened. Three stable hybridomas clones were selected and named 5D6, 7G3, and 8C9. The MAbs-based ELISA was scrutinized for species-specific recognition with a number of human throat swab samples from Group I （156 patients with typical respiratory illness clinically confirmed before） and Group II （57 healthy donors）. Results In Group I, 55 positive cases were detected by anti-EB MAb-based ELISA, 51 cases were positive by MAbs 5D6-based ELISA, and 33 and 38 cases were positive by MAb 8C9 and 7G3-based ELISA respectively. Of the 57 samples from Group II ＂healthy donors＂, 5 were positive and 52 were negative with both anti-EB and 5D6-based tests, while 2 and 3 positive cases were identified by the other two MAb-based ELISAs respectively. Conclusion The novel MOMPvD2.VD3 MAb-based assay may have higher specificity than the anti-EB MAb, which may possibly be used as an alternative tool for the diagnosis of C. pneumoniae infection.

Antimicrobial Susceptibility and Characterization of Outer Membrane Proteins of Aeromonas hydrophila Isolated in China

Aeromonas hydrophila isolates from clinical cases （n=43） were tested against 8 antimicrobial agents and typed by outer membrane protein （OMP） pattern by using sodium dodecyl sulfate gel electrophoresis. All isolates were resistant to ampicillin （MICs, ≥16 μg mL-1） and sulfamonomethoxine （MICs≥64 μg mLl）, but susceptible to norfloxacin （MICs,≤0.5 μg mL-1）. There was a high incidence of resistance to erythromycin （90.70%） and tylosin （93.02%）, while a low incidences of resistance to ciprofloxacin （2.33%）, enrofloxacin （2.33%） and florfenicol （4.65%）. Six different outer membrane protein patterns were found among 34 isolates by analyzing proteins in the range of 22 to 50 kDa, other than 9 isolates with their respective profiles. The strains with the similar OMP profiles had similar resistances. Compared with the other strains from the same OMP patterns, NB-1, A.Pun and MR-1 had lacked the proteins in the range of 30 to 45 kDa and their resistance to florfenicol substantially increased. It is speculated that the outer membrane protein changes might correlate with decreased susceptibility to florfenicol in the three strains. Some strains which showed completely identical OMP types had a little difference in their resistance to fluoroquinolones, indicating that there might be other factors that were involved in the antimicrobial resistance of A. hydrophila.

Bacterial outer membrane vesicle-based cancer nanovaccines

Tumor vaccines,a type of personalized tumor immunotherapy,have developed rapidly in recent decades.These vaccines evoke tumor antigen-specific T cells to achieve immune recognition and killing of tumor cells.Because the immunogenicity of tumor antigens alone is insufficient,immune adjuvants and nanocarriers are often required to enhance anti-tumor immune responses.At present,vaccine carrier development often integrates nanocarriers and immune adjuvants.Among them,outer membrane vesicles(OMVs)are receiving increasing attention as a delivery platform for tumor vaccines.OMVs are natural nanovesicles derived from Gramnegative bacteria,which have adjuvant function because they contain pathogen associated molecular patterns.Importantly,OMVs can be functionally modified by genetic engineering of bacteria,thus laying a foundation for applications as a delivery platform for tumor nanovaccines.This review summarizes 5 aspects of recent progress in,and future development of,OMV-based tumor nanovaccines:strain selection,heterogeneity,tumor antigen loading,immunogenicity and safety,and mass production of OMVs.

Immunoproteomic Analysis of Bordetella bronchiseptica Outer Membrane Proteins and Identification of New Immunogenic Proteins

Bordetella bronchiseptica is a Gram-negative pathogen that causes acute and chronic respiratory infection in a variety of animals. To identify useful antigen candidates for diagnosis and subunit vaccine of B. bronchiseptica, immunoproteomic analysis was adopted to analyse outer membrane proteins of it. The outer membrane proteins extracted from B. bronchiseptica were separated by two-dimensional gel electrophoresis and analyzed by Western blotting for their reactivity with the convalescent serum against two strains. Immunogenic proteins were identified by matrix-assisted laser desorption/ionization time of flight-mass spectrometry（MALDI-TOF-MS）, a total of 14 proteins are common immunoreactive proteins, of which 1 was known antigen and 13 were novel immunogenic proteins for B. bronchiseptica. Putative lipoprotein gene was cloned and recombinantly expressed. The recombinant protein induced high titer antibody, but showed low protective indices against challenges with HB（B. bronchiseptica strain isolated from a infected rabbit）. The mortality of mice was 80% compared to 100% of positive controls. The identification of these novel antigenic proteins is an important resource for further development of a new diagnostic test and vaccine for B. bronchiseptica.

Enhancement of CREC sensitivity to fosfomycin by baicalein through increasing outer membrane permeability

Background:To confirm whether baicalein improves the sensitivity of carbapenem-resistant Escherichia coli(CREC)to fosfomycin by increasing the permeability of bacterial outer membrane in vitro experiments.Methods:The clinically isolated CREC strains were amplified and then divided into three groups including baicalein monotherapy groups,fosfomycin monotherapy groups,and baicalein plus fosfomycin groups,and their minimum inhibitory concentrations(MICs)measurement and interpretation were performed according to CLSI interpretive criteria.To determine bacterial permeability after contact with baicalein,CREC were incubated with fluorescein isothiocyanate(FITC)after pretreatment with blank control without baicalein,with 0.25 MIC of baicalein,and with 0.125 MIC of baicalein,followed by observation of the intrabacterial fluorescence intensity of FITC.In addition,CREC were pretreated with 0.125 MIC of baicalein and with blank control without baicalein followed by measurement of alkaline phosphatase(AKP)leak to determine the change of bacterial permeability.Results:The MIC range in baicalein monotherapy groups was from 128 mg/L to 256 mg/L,and the MIC range in fosfomycin monotherapy groups was from 16 mg/L to 1,024 mg/L,but the MIC range in both combination therapy groups was reduced to 4 mg/L to 64 mg/L.The combination use reduced the MIC of each therapy by 75%-96.88%in all strains,and the fractional inhibitory concentration index(FICI)values less than or equal to 0.5.In the permeability assay,no permeabilization of FITC was observed in the blank groups without baicalein,but the intrabacterial FITC aggregation was observed in the groups of pretreatment with 0.25 MIC of baicalein or 0.25 MIC of baicalein.In the AKP leak assay,the AKP leak was more severe at the groups of coincubation with 0.25 MIC of baicalein than those blank groups without baicalein within the first 6 hours.Conclusion:Our study suggests that baicalein may synergistically enhance the antibacterial effect of fosfomycin by increasing the permeability of CREC outer membrane.

Dynamic shielding of bacterial outer membrane vesicles for safe and efficient chemo-immunotherapy against tumors

Bacterial outer membrane vesicles(OMVs)are potent immunostimulants of regulating the tumor microenvironment(TME)for immunotherapy,and can be used to deliver drugs.However,the severe systemic inflammatory response triggered by OMVs upon intravenous(i.v.)injection has limited their application.Here,we developed a safe and effective strategy by conjugating doxorubicin-loaded serum albumin(SA-DOX,AD)onto the surface of OMVs using a matrix metalloproteinase(MMP)-cleavable peptide linker(cL).This approach enabled the dynamic shielding of OMVs to reduce the systemic side effects while simultaneously enhancing the anti-tumor effects through chemo-immunotherapy.Specifically,the resulting OMV-cL-AD formulation exhibited significantly enhanced accumulation at the tumor site after i.v.administration,facilitated by the SA decoration on the OMVs surface.Subsequently,the shield on the OMV-cL-AD was cleaved by the over-expressed MMP in the TME,leading to the release of both OMVs and AD.This process provided OMV-induced immunotherapy and DOX-induced chemotherapy,resulting in synergistic tumor inhibition.In conclusion,our work demonstrated the potential of OMV-cL-AD as an effective immunochemotherapy strategy that can prolong the survival time of mice without inducing side effects.

Bacterial outer membrane vesicles-based therapeutic platform eradicates triple-negative breast tumor by combinational photodynamic/chemo-/immunotherapy

Bacterial outer membrane vesicles(OMVs)are potent immuno-stimulating agents and have the potentials to be bioengineered as platforms for antitumor nanomedicine.In this study,OMVs are demonstrated as promising antitumor therapeutics.OMVs can lead to beneficial M2-to-M1 polarization of macrophages and induce pyroptosis to enhance antitumor immunity,but the therapeutic window of OMVs is narrow for its toxicity.We propose a bioengineering strategy to enhance the tumor-targeting ability of OMVs by macrophage-mediated delivery and improve the antitumor efficacy by co-loading of photosensitizer chlorin e6(Ce6)and chemotherapeutic drug doxorubicin(DOX)into OMVs as a therapeutic platform.We demonstrate that systemic injection of the DOX/Ce6-OMVs@M therapeutic platform,providing combinational photodynamic/chemo-/immunotherapy,eradicates triple-negative breast tumors in mice without side effects.Importantly,this strategy also effectively prevents tumor metastasis to the lung.This OMVs-based strategy with bioengineering may serve as a powerful therapeutic platform for a synergic antitumor therapy.

An AIE-active probe for efficient detection and high-throughput identification of outer membrane vesicles

Rapid detection and quantification of outer membrane vesicle(OMV)are of both scientific value and clinical implications.However,limited tools are available for investigations of OMVs.Herein,we report a novel fluorescent probe with aggregation-induced emission(AIE)characteristics,namely,OEO-TPE-MEM(OTM),for OMV detection.OTM emits faintly in an aqueous medium,but its fluorescence could be effectively turned on upon interacting with bacteria bodies and OMVs produced by Gram-negative bacteria.Notably,OTM could provide quantitative information on bacterial membrane remodeling and OMV secretion and be applied to high-throughput screening of OMV-inducing agents.This study presents a powerful AIE probe for imaging and quantitative analysis of bacteria envelop and derived OMVs,which might be applied for evaluating research and clinical antimicrobial materials in future studies.

Dissociation of outer membrane for Escherichia coli cell caused by cerium nitrate

The biological effect of cerium nitrate on the outer membrane(OM) of Escherichia coli(E.coli) cell was studied,and the antim-icrobial mechanism of rare earth elements was explored.The antimicrobial effect of cerium nitrate on E.coli cell was valued by plate count method,and the morphology change of E.coli cell was observed with scanning electron microscopy(SEM) and transmission electron microscopy(TEM).The results showed that the E.coli cell suspension was flocculated when the concentration of Ce(NO3)3?6H2O...

Personalized cancer vaccines from bacteria-derived outer membrane vesicles with antibody-mediated persistent uptake by dendritic cells

Nanocarriers with intrinsic immune adjuvant properties can activate the innate immune system while delivering tumor antigen,thus efficiently facilitating antitumor adaptive immunity.Bacteria-derived outer membrane vesicles(OMVs)are an excellent candidate due to their abundance of pathogen associated molecular patterns.However,during the uptake of OMVs by dendritic cells(DCs),the interaction between lipopolysaccharide and toll-like receptor 4 induces rapid DC maturation and uptake blockage,a phenomenon we refer to as“maturation-induced uptake obstruction"(MUO).Herein we decorated OMV with the DC-targeting aDEC205 antibody(OMV-DEC),which endowed the nanovaccine with an uptake mechanism termed as 4<not restricted to maturation via antibody modifying”(Normandy),thereby overcoming the MUO phenomenon.We also proved the applicability of this nanovaccine in identifying the human tumor neoantigens through rapid antigen display.In summary,this engineered OMV represents a powerful nanocarrier for personalized cancer vaccines,and this antibody modification strategy provides a reference to remodel the DC uptake pattern in nanocarrier design.

Immunogenic proteins and their vaccine development potential evaluation in outer membrane proteins(OMPs)of Flavobacterium columnare

Flavobacterium columnare is a Gram-negative bacterium that causes columnaris disease in freshwater fish worldwide.Many studies have focused on the identification of protective antigens to aid in the development of novel vaccines against the disease.In this study,an immunoblotting approach was employed to identify immunogenic outer membrane proteins(OMPs)from F.columnare in two-dimensional electrophoresis(2-DE)map gels using antibacterial sera obtained from grass carp(Ctenopharyngodon idella),and anti-grass carp-recombinant Ig(rIg)monoclonal antibodies.Five unique immunogenic proteins,including the gliding motility lipoprotein GldJ(GldJ),hypothetical protein FCOL_13420(Fco1),lipoprotein(Lip),F0F1 ATP synthase subunit beta(F0f1)and outer membrane efflux protein precursor(Omep),were characterized.Over-expression of these proteins in Escherichia coli DE3,and their immunogenicity and protective efficacy were evaluated in grass carp.The relative percent survival(RPS)of the groups immunized separately with recombinant GldJ,Lip and Omep was 72%,64%and 68%,respectively when compared to control fish.Up-regulation of immuno-related genes and specific antibodies were detected in immunized fish and sera of immunized fish inhibited the growth of F.columnare.The results suggest that GldJ,Lip and Omep are major protective antigens and may be considered as novel candidates in the development of vaccines against columnaris disease in fish.

Helicobacter pylori outer membrane protein Q genotypes and their susceptibility to antiadhesive phytotherapeutic agents

OBJECTIVE： Helicobacter pylori is a Gram-negative organism. Its outer membrane protein Q（Hop Q） mediates host-pathogen interactions; Hop Q genotypes 1 and 2 are found associating with gastroduodenal pathologies. The authors measured the anti-adhesion effects of the extracts of Abelmoschus esculentus, Zingiber officinale, Trachyspermum ammi, Glycyrrhiza glabra, Curcuma longa and Capsicum annum against Hop Q genotypes and H. pylori cytotoxin-associated gene A（Cag A）.METHODS： DNA was extracted by polymerase chain reaction of the Hop Q genotypes（i.e., type 1, type 2 and Cag A） from 115 H. pylori strains. The effect of the extracts from selected dietary ingredients was determined using a gastric adenocarcinoma cell line and a quantitative DNA fragmentation assay. The anti-adhesive effect of these extracts on H. pylori was tested using an anti-adhesion analysis.RESULTS： C. annum, C. longa and A. esculentus showed prominent anti-adhesion effects with resultant values of 17.3% ± 2.9%, 14.6% ± 3.7%, 13.8% ± 3.6%, respectively, against Hop Q type 1 and 13.1% ± 1.7%, 12.1% ± 2%, 11.1% ± 1.6%, respectively, against Hop Q type 2. C. longa（93%）, C. annum（89%） and A. esculentus（75%） had better anti-adhesive activity against H. pylori with Hop Q type 1 compared to Hop Q type 2 with respective values of 70%, 64% and 51%. Extracts of C. annum（14.7% ± 4.1%）, A. esculentus（12.3% ± 4.1%） and Z. officinale（8.4% ± 2.8%） had an anti-adhesion effect against Cag A-positive H. pylori strains compared to Cag A-negative strains.

Molecular mechanism of SurA’s chaperoning function to outer membrane proteins revealed by purification-after-crosslinking single-molecule FRET

SurA is the major chaperone of outer membrane proteins(OMPs)in the periplasm.The molecular mechanism when SurA performs its chaperoning function is still unclear.Here,a purification-after-crosslinking(PAC)procedure was combined with single-molecule fluorescence resonance energy transfer(smFRET)to probe the conformations of SurA and OmpC in their complex.We found that SurA in the free state rearranges itself based on the crystal structure,except that the P2 domain moves towards the core domain with two major positions,forming a clamp-like conformation to accommodate OmpC.The obvious rearrangement of the P2 domain of SurA helps SurA to hold OmpC.OmpC attaches to SurA randomly and has the propensity to be near the middle part of the crevice.The noncollapsed and disordered conformations of OMPs provided by the OMPs?SurA complex are important to the subsequent delivery and folding process.

Bid mediates lysosomal membrane permeabilization and the consequent mitochondrial outer membrane permeabilization in RH-35 hepatoma cells

We reported previously that chymotrypsin B is cached in the lysosomes of rat hepatocytes and mediates apoptosis induced by TNF-alpha (1) and H2O2. However, the mechanism

Role of Outer Membrane Vesicles in Bacterial Physiology and Host Cell Interactions

Outer membrane vesicles(OMVs)are spherical particles shed from the outer membrane of Gram-negative bacteria,which contain the typical components present in the outer membrane,although enrichment of specific molecules may occur,and furthermore a variety of periplasmic components and occasionally some inner membrane or cytoplasmic fractions.Although the detailed mechanisms of OMV biogenesis are not fully illuminated yet,several models have been proposed that demonstrate OMV biogenesis is an orchestrated well-regulated process.OMV secretion offers a way for both intra-and inter-species bacterial communication and for interaction or modulation of the bacterial environment.Therefore,OMVs have proven to be functionally versatile and important for bacterial physiology and survival of the host environment.In the host,OMVs are internalized via host cell endocytosis pathways,allowing them to subsequently trigger a variety of cellular responses.In this review,we discuss the recent advances in establishing the mechanisms involved in OMV biogenesis and the impact of OMVs on bacterial physiology and intracellular modulation of the host.

Applying Double Skin Facade with ETFE Membrane Assembly for Energy Saving and Acoustic Protection for the Building of the Czech Institute of Informatics,Robotics and Cybernetics in Prague

Multidisciplinary, integrated planning approach by architects, engineers, scientists and manufacturers to reduce energy consumption of buildings. The CIIRC Complex, located on the main campus of Czech Technical University in Prague consists of two buildings, newly constructed building and adaptive reuse of existing building. CIIRC—Czech Institute of Informatics, Robotics and Cybernetics is a contemporary teaching facility of new generation and use for scientific research teams. New building has ten above-ground floors, on the bottom 4 floors of laboratories, scientist modules, classrooms, above are offices, meeting rooms, teaching and research modules for professors and students. Offices of the rector are on the last two floors of the building. On the top floor is congress type auditorium, in the basement is fully automatic car park. Double skin pneumatic cushions facade. In the project are introduced series of architectural and technical features and innovations. Probably the most visible is the double skin facade facing south-transparent double layer membrane ETFE (Ethylen-TetraFluorEthylen) cushions with triple glazed modular system assembly. Acting as solar collector, recuperating of hot air on the top floors, saving up to 30% of an energy consumption.

Vaccine development for leptospirosis:A systematic review

Objective:To assess the efficacy of various types of vaccines developed for leptospirosis.Methods:A comprehensive search was conducted in three databases:PubMed,Scopus,and Cochrane Library.Two authors(YS and MN)selected the articles based on manual screening.The study eligibility criteria are all Leptospira species regardless of any cluster(pathogenic,intermediate and non-pathogenic).This study recorded articles with positive and negative results and showed a comparison among various membrane proteins as vaccine candidates.The studies on the effectiveness of outer membrane protein as vaccine candidates were also included.The articles obtained in the databases were imported into the WPS spreadsheet,and duplicate documents were removed manually.Results:A total of 24 studies were included in the review,which evaluated various types of leptospirosis vaccines.Multiple vaccines were developed and tested;however,the heterogeneity of Leptospira species pose a challenge.As an effective approach,an epitope based vaccine shows quite a promising result.However,sufficient validation,testing and clinical trials are required.Conclusions:Developing an effective vaccine for leptospirosis remains a global health priority.While significant progress has been made in recent years,there is a need for further research to optimize vaccine development and to ensure that vaccines are accessible and effective for high-risk populations.

鱼类4种病原弧菌耐药性及主要外膜蛋白OmpK基因检测

对鱼源4种病原弧菌(鳗弧菌、哈氏弧菌、鱼肠道弧菌、秦皇岛弧菌)进行了对常用抗菌类药物的耐药性测定,结果表明,鳗弧菌对青霉素G、苯唑青霉素、氨苄青霉素、克林霉素、万古霉素、杆菌肽等6种常用药物耐药;哈氏弧菌对青霉素G、苯唑青霉素、氨苄青霉素、杆菌肽等4种常用药物耐药;鱼肠道弧菌对苯唑青霉素和杆菌肽等2种耐药;秦皇岛弧菌对青霉素G、苯唑青霉素、氨苄青霉素、克林霉素、杆菌肽等5种耐药。根据已知的弧菌外膜蛋白OmpK序列设计1对简并引物,利用聚合酶链式反应(PCR)方法从4种病原弧菌总DNA中均扩增外膜蛋白OmpK的基因片断,结果鳗弧菌、哈氏弧菌、秦皇岛弧菌及鱼肠道弧菌均扩增得到约800bp DNA片段,但鱼肠道弧菌扩增的片段较模糊。