Delivery of vaccines and therapeutics to treat infectious diseases

Khan, Tarik Ali

03 March 2014

Efficient delivery of vaccines and therapeutic agents in vivo is a critical aspect for ensuring a desired immunological or biological response is achieved. This work focuses on developing effective delivery systems for vaccines and therapeutics to achieve biological potency while maintaining patient friendly administration. Traditional vaccines are administered via parenteral injection, which requires skilled personnel for administration and does not elicit strong mucosal immune responses. An alternative approach is to develop an oral vaccine; however, this requires antigens to be protected during transit through the gastrointestinal tract and be transported across specialized intestinal sampling cells called M cells. These M cells are extremely rare, making them an important target for oral vaccines. The protein invasin, from Yersinia psuedotuberculosis, naturally binds [mathematical symbols] integrin, a receptor found exclusively on M cells within the gastrointestinal tract. Therefore, we generated combinatorial libraries of invasin, followed by a directed evolution and high-throughput screening strategy to identify invasin variants with increased affinity towards [mathematical symbols] integrin. This process led to the creation of an invasin variant exhibiting a nine-fold decrease in EC₅₀, which could be used for targeted oral vaccine systems. In order to test for increased vaccine efficacy due to the engineered invasin ligand, we developed a polymeric microparticle delivery system. These microparticles were formulated to encapsulate the model antigen ovalbumin and be decorated with the invasin targeting ligands. To measure physiological trafficking and intestinal retention, novel fluorescent nanocrystals were loaded into particles conjugated to invasin. These nanocrystals served as a contrast agent for in vivo imaging in mice. While these particles were unsuccessful in generating an antibody response toward ovalbumin when administered to mice, a response directed to the targeting ligand itself was observed. These findings provide insights for further optimizing a delivery system for oral vaccination. In addition to developing an oral vaccine delivery system, we created a high concentration therapeutic protein formulation, suitable for low-volume subcutaneous administration. By adding crowding agents, we were able to generate reversible protein nanoclusters with low viscosity. These nanoclusters were found to revert to monomer upon dilution and pharmacokinetic profiles similar to solutions. / text

Protein engineering

Invasin

Oral vaccines

Mucosal immunology

THE ROLE OF OUTER MEMBRANE PROTEIN A IN ANAPLASMA MARGINALE CELLULAR INVASION AND ITS POTENTIAL AS A CROSS-PROTECTIVE ANTIGEN

Emani, Sarvani

13 September 2013

Anaplasma phagocytophilum and A. marginale are the etiologic agents of human granulocytic anaplasmosis and bovine anaplasmosis, respectively. Both diseases can be severe, even fatal, and protective vaccines for each are lacking. We recently identified A. phagocytophilum outer membrane protein A (ApOmpA) as being critical for cellular invasion and is expressed during infection of mammalian but not tick cells. Disrupting ApOmpA-host cell interactions significantly inhibits A. phagocytophilum entry into host cells. ApOmpA and its A. marginale ortholog, AM854 (A. marginale OmpA; AmOmpA) exhibit 44% amino acid identity. The ApOmpA invasin domain is highly conserved between both proteins. In this study, we investigated the differential expression of AmOmpA in mammalian versus tick cell lines; the serological cross-reactivity between AmOmpA and ApOmpA; the potential role of AmOmpA in mediating interactions with mammalian host cells; and if inhibiting the AmOmpA-host cell interaction impairs A. marginale cellular invasion. AmOmpA is expressed throughout infection of mammalian, but not tick cells. Sera from A. marginale infected cows recognized both AmOmpA and ApOmpA. Sera from cows immunized with an A. marginale OM complex that conferred protection also recognized both proteins. Thus, ApOmpA and AmOmpA share cross-reactive B-cell epitopes. To determine if AmOmpA plays a role in promoting A. marginale infection, we assessed the abilities of recombinant AmOmpA to competitively inhibit infection of mammalian host cells. To examine the cross-reactive properties of OmpA, we showed that preincubation of host cells with GST-ApOmpA and pretreatment of A. marginale with anti-GST-ApOmpA significantly inhibit A. marginale infection of host cells; and that pretreatment of A. phagocytophilum with serum from cows immunized with an A. marginale OM complex reduces its infection of host cells. These studies advance understanding of conservation of OmpA-mediated cellular invasion between Anaplasma species and highlight the potential of OmpA as a vaccinogen that could offer protection against human and veterinary anaplasmoses.

Anaplasma marginale

Anaplasma phagocytophilum

Outer membrane protein A

Invasin

vaccinogen

Medicine and Health Sciences

Controlling virulence in Yersinia pseudotuberculosis through accumulation of phosphorylated CpxR / Reglering av virulens hos Yersinia pseudotuberculosis genom ackumulering av fosforylerat CpxR-protein

Thanikkal, Edvin

January 2014

Like many Gram-negative bacteria, the food-borne pathogen Yersinia pseudotuberculosis harbours different regulatory mechanisms to maintain an intact bacterial envelope especially during exposure to extracytoplasmic stress (ECS). The CpxA-CpxR two component regulatory system is one such ECS-responsive regulatory mechanism. Activation of CpxA-CpxR two-component regulatory system (TCRS) accumulates phosphorylated CpxR (CpxR~P), which not only up-regulates various factors that are designed to maintain envelope integrity, but also down-regulates key determinants of bacterial virulence. Y. pseudotuberculosis establishes close host cell contact in part through the expression of the invasin adhesin. Invasin expression is positively regulated by the transcriptional regulator RovA, which in turn is negatively regulated in response to nutrient stress by a second transcriptional regulator RovM. In Y. pseudotuberculosis, loss of CpxA phosphatase activity accumulates CpxR~P, and this represses both rovA and inv transcription directly, or indirectly via activation of rovM transcription. It is now of interest to understand the molecular mechanism behind how CpxR~P regulates gene transcription both positively and negatively. A type III secretion system (T3SS) is a highly conserved multi-protein secretion system used by many Gram-negative bacteria to secrete protein cargo that counteracts the effects of a host cell emitted anti-bacterial activity. A typical set of proteins that make-up a functional T3SS includes structural proteins, translocators, effectors and regulatory proteins. Accumulation of CpxR~P was shown to repress the plasmid encoded Ysc-Yop T3SS of Y. pseudotuberculosis. Although yet to be confirmed experimentally, promoter-CpxR~P binding studies indicate multiple modes of regulatory control that for example, could influence levels of the plasmid-encoded Ysc-Yop system transcriptional activator, LcrF, and the chromosomal encoded negative regulators YmoA and YtxR.  Regulatory processes of TCRS involve transient molecular interactions between different proteins and also protein with DNA. Protein-protein interaction studies using the BACTH assay showed that it can be useful in analysing the molecular interactions involving the N-terminal domain of CpxR, while the λcI homodimerization assay can be useful in analysing molecular interactions involving the C-terminal domain of CpxR. Therefore, in combination with other biochemical and physiological tests, these hybrid-based assays can be useful in dissecting molecular contacts that can be helpful in exploring the mechanism behind CpxR~P mediated transcriptional regulation. In conclusion, this work uncovered direct involvement of CpxR~P in down-regulating virulence in Yersinia pseudotuberculosis. It also utilised genetic mutation and explored different protein-protein interaction assays to begin to investigate the mechanism behind the positive and negative regulation of gene expression mediated through active CpxR~P.

Y. pseudotuberculosis

CpxA

CpxR

invasin

RovA

RovM

T3SS

virulence

transcriptional regulation

Effects of invasin and YopH of Yersinia pseudotuberculosis on host cell signaling / Effekter av proteinerna invasin och YopH från bakterien Yersinia pseudotuberculosis på värdcellen

Gustavsson, Anna

January 2004

Integrins are a large family of membrane-spanning heterodimeric (αβ) receptors that bind to ligands on other cells or to extracellular matrix (ECM) proteins. These receptors mediate bidirectional signaling over the cell membrane to induce signaling cascades mediating functions as cell adhesion, spreading and migration. This signaling takes place at cell-matrix adhesions, which are sites where clustered and ligand-bound integrins connect to and mediate stabilization of the actin cytoskeleton, and induce signaling cascades. Integrins have a short cytoplasmic tail that is crucial for the bidirectional signaling, and the β1-integrin subunit exists in five splice variants only differing in the membrane-distal part of the cytoplasmic tail. This region of the almost ubiquitously expressed β1-integrin, β1A, contains two protein tyrosine motifs (NPXYs) interspaced with a threonine-rich region, while this region of the β1B splice variant is completely different and lacks known motifs. In contrast to the β1A-integrin, the β1B variant cannot mediate cell-matrix adhesion formation following binding to ECM ligands. The enteropathogenic bacterium Yersinia pseudotuberculosis binds to β1-integrins on the host cell with invasin, and this stimulates uptake of the bacterium. However, upon binding to the host cell, pathogenic Yersinia strains inject virulence effectors that block uptake. One effector responsible for the blocking is a tyrosine phosphatase, YopH. We identified the targets for this effector in the macrophage-like cell line J774A.1, which represent a professional phagocyte and thus is the likely target cell for the antiphagocytic effect of Yersinia. Two YopH target proteins were p130Cas and ADAP, of which the latter interestingly is an adapter protein specifically expressed in hematopoietic cells. ADAP has previously been implicated to participate in Fc-receptor-mediated phagocytosis and in communication between T-cell receptors and integrins. We also studied the importance of the cytoplasmic tail of β1-integrin for uptake of Yersinia. The GD25 cell line, which is a fibroblast-like cell line that lacks endogenous β1-integrins, was used together with GD25 cells transfected with β1B, β1Α or cytoplasmic tail mutants of β1A. These studies revealed that β1B-integrins could bind to invasin but not mediate uptake of Yersinia, while β1A both bound to invasin and mediated uptake. The first NPXY motif (unphosphorylated) and the double-threonines of the unique part of β1A were important for the ability of integrin to mediate uptake of Yersinia. These studies lead to the interesting finding that, when these cells were allowed to spread on invasin, those that expressed β1A spread as normal fibroblasts while for β1B-integrin-expressing cells, only finger-like protrusions of filopodia were formed. This provided us with a tool to study formation of filopodia without interference of the tightly linked process of lamellipodia formation. Initially, proteins that localized to the tip complex of these filopodia were identified. These were talin, VASP and interestingly the p130Cas-Crk-DOCK180 scaffold, while FAK, paxillin and vinculin were absent. In addition, VASP, p130Cas and Crk were shown to be important for the filopodia formation in GD25β1B. Further, the role of the actin motor myosin X, which previously has been implicated in formation of filopodia, was studied in the GD25Β1B cells and it was shown that myosin X not was important for filopodia formation, but that it recruited FAK and vinculin to the tip complexes of filopodia.

Molecular biology

β1-integrin

Yersinia pseudotuberculosis

Invasin

YopH

Cell-Matrix Adhesion

Filopodia

Cell Spreading

Molekylärbiologi

Molecular biology

Molekylärbiologi

Papel das hemaglutininas 67-72p de Corynebacterium diphtheriae na ligação a proteínas plasmáticas, superfícies celulares, invasão e indução de apoptose / Participation of hemagglutinin 67-72p of corynebacterium diphtheriae in binding to plasma proteins, cells surfaces, invasion and induction of apoptosis

Priscila Soares Sabbadini

16 June 2010

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Corynebacterium diphtheriae pode ser isolado tanto de quadros de difteria clássica, quanto de infecções sistêmicas, como endocardite. O fibrinogênio (Fbn) e a fibronectina (Fn) são glicoproteínas presentes na matriz extracelular de tecidos conjuntivos. A influência destas proteínas na patogênese das infecções locais e invasivas causadas por C. diphtheriae é objeto de estudo devido ao fato do bacilo diftérico poder ser encontrado em lesões nas quais o Fbn e a Fn são predominantes, incluindo a pseudomembrana diftérica e vegetações cardíacas presentes na endocardite infecciosa. São crescentes as evidências de que o C. diphtheriae pode, além de aderir, ser internalizado por células em cultura. No presente estudo, investigou-se a participação de C. diphtheriae e das proteínas de superfície 67-72p na aderência à Fn e ao Fbn de plasma humano e a eritrócitos. A aderência às células HEp-2 e internalização também foram analisadas. A participação de 67-72p nos mecanismos de morte celular foi avaliada através das colorações por Azul de Tripan e 46-diamidino-2-fenil indol (DAPI), pelo ensaio de redução utilizando dimetil-tiazol-difenil tetrazólio (MTT) e por citometria de fluxo. As 67-72p foram extraídas da superfície da amostra toxigênica C. diphtheriae subsp. mitis CDC-E8392 através de processos mecânicos e precipitação com sulfato de amônio saturado. Análises por SDS-PAGE e immunoblotting detectaram a presença das bandas protéicas de 67 e 72kDa nas amostras toxinogênicas e atoxinogênicas analisadas, as quais pertenciam aos biotipos fermentador e não fermentador de sacarose. C. diphtheriae foi capazes não só de formar agregados na presença de plasma de coelho, mas também de converter Fbn em fibrina independentemente da presença do gene tox. No entanto, a amostra atoxinogênica ATCC 27010 (tox-) foi menos aderente ao Fbn do que a homóloga ATCC 27012 (tox+). A interação bacteriana com eritrócitos foi inibida somente pela Fn. Ligações entre Fn e/ou Fbn com 67-72p foram demonstradas por dot blotting, ELISA e/ou ensaios utilizando fluorescência. As 67-72p foram capazes de inibir as interações bacterianas com o Fbn, indicando que 67-72p podem participar do processo de aderência do patógeno aos tecidos do hospedeiro. Através da microscopia óptica, demonstrou-se a ligação de 67-72p adsorvidas em microesferas de látex com células HEp-2. Anticorpos de coelho do tipo IgG anti 67-72p interferiram somente com a expressão do padrão de aderência do tipo difuso, normalmente apresentado pela amostra CDC-E8392. A Microscopia Eletrônica de Transmissão (MET) e a inibição da internalização bacteriana pela IgG anti 67-72p ou por 67-72p indicaram o papel de 67-72p como invasina. Alterações do citoesqueleto de células HEp-2 com acumulação de actina polimerizada, induzida por microesferas sensibilizadas com 67-72p, foi observada pelo fluorescent actin staining (FAS) test. Foi visualizado um aumento no número de bactérias viáveis no compartimento intracelular após tratamento de células HEp-2 ou dos microrganismos com Fn. A presença de partículas de látex adsorvidas com 67-72p no interior de vacúolos frouxos em células HEp-2 sugeriu que estas proteínas podem causar efeito citotóxico. A avaliação através das colorações com Azul de Tripan, DAPI e os ensaios de redução utilizando MTT demonstraram um decréscimo na viabilidade de células tratadas com 67-72p. As mudanças morfológicas observadas 3 horas após o início do tratamento com 67-72p incluíram vacuolização, fragmentação nuclear e formação de corpúsculos apoptóticos. A citometria de fluxo revelou um decréscimo de 15,13% no volume/tamanho de células tratadas com 67-72p. Além disso, o ensaio utilizando Iodeto de Propídio (IP) e Anexina V (AV)-FITIC demonstrou que havia 66,1% de células vivas (IP-/AV-), 16,6% de células em apoptose inicial (IP-/AV+) e 13,8% de células em apoptose tardia ou necrose secundária. Em conclusão, as 67-72p estão diretamente envolvidas na interação com Fn e Fbn. As proteínas não fimbriais 67-72p são hemaglutininas implicadas na aderência a células respiratórias e na internalização. Além disso, estas proteínas podem atuar como fatores de virulência em potencial para induzir apoptose de células epiteliais nos estágios iniciais da difteria e nas infecções invasivas causadas pelo C. diphtheriae / Corynebacterium diphtheriae have been isolated from classical diphtheria and systemic infections such as endocarditis. Fibrinogen (Fbn) and fibronectin (Fn) are high molecular-weight glycoproteins that may be found in extracellular matrix of connective tissues. Their influence in the pathogenesis of local and in invasive C. diphtheriae infection is object of interest due to the fact that diphtheria bacilli is recovered from lesions where such proteins are predominant, including pharyngeal pseudomembrane and valve heart vegetations in infectious endocarditis. There is growing evidence that C. diphtheriae may adhere to and be internalized by cells in culture. The present study investigated the participation of C. diphtheriae strains and 67-72p, a surface protein, in adherence to human plasma Fn, Fbn, erythrocytes, adherence to and internalization by HEp-2 cells. The participation of 67-72p in promoting cell death was evaluated by the Trypan blue, DAPI staining methods, methylthiazole tetrazolium (MTT) reduction assay and flow cytometry. The 67-72p was extracted from C. diphtheriae subsp. mitis CDC-E8392 toxigenic strain, by mechanical process and ammonium sulfate fractionation. SDS-PAGE and immunoblotting analysis detected the polypeptide bands of 67 and 72 kDa in all toxigenic and nontoxigenic strains from both sucrose-fermenting and non-fermenting biotypes. Diphtheria bacilli were capable to both form bacterial aggregates in rabbit plasma and to convert Fbn to fibrin independently to the presence of tox gene, albeit the ATCC 27010 (tox-) strain was less adherent to Fbn than the parental strain ATCC 27012 (tox+). Bacteria-erythrocytes interaction was inhibited only by Fn. Interactions of Fn and/or Fbn with 67-72p were demonstrated by dot blotting, ELISA and/or fluorescence assays. Bacteria-Fbn interaction was inhibited by 67-72p, indicating that 67-72p may participate in the adhesion of the pathogen to host tissues. The interaction of HEp-2 cells with 67-72p-adsorbed latex microspheres was demonstrated by light microscopy. Rabbit IgG anti 67-72p was shown to interfere with diffuse adherence phenotype to HEp-2 cells displayed by CDC-E8392, but not by other phenotypes. Transmission electron microscopy (TEM) and the inhibition of bacterial internalization by anti 67-72p IgG and 67-72p indicated the role of 67-72p as invasin. Cytoskeletal accumulation of polymerized actin in HEp-2 cells induced by 67-72p-microspheres was observed by the fluorescent actin staining (FAS) test. Fn enhanced the intracellular viability of all strains tested. The presence of 67-72p-latex particles inside spacious vacuoles (SV) in HEp-2 cells, suggested a citotoxic effect of these proteins. Evaluation by the Trypan blue staining method, 4,6-Diamidine-2-phenylindole dihydrochloride DAPI and the 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction assay showed a significant decrease in viability of HEp-2 cells treated with 0.2 mg/ml 67-72p. Morphological changes in HEp-2 cells (vacuolization, nuclear fragmentation, and the formation of apoptotic bodies) was observed after 3 h post-treatment with 67-72p. Flow cytometry revealed a 15.13% reduction apoptotic volume of HEp-2 cells treated with 0.2 mg/ml 67-72p. Moreover, a double-staining assay using Propidium Iodide (PI)/Annexin V (AV) demonstrated the numbers of vital (PI-/AV-) (66.1%) vs. early apoptotic (PI-/AV+) (16.6%) cells and late apoptotic or secondary necrotic cells (PI+/AV+) (13.8%). In conclusion, the 67-72p are directly implicated in C. diphtheriae interaction with Fn and Fbn. The non-fimbrial Fn/Fbn binding 67-72p are hemagglutinins directly implicated in adherence to and internalization by respiratory epithelial cells. Moreover, 67-72p may act as a potential virulence factor to induce apoptosis of epithelial cells in the early stages of diphtheria and C. diphtheriae invasive infection

Difteria

C. diphtheriae

Adesina 67-72p

Fibrina

Fibrinogênio

Pseudomembrana

Fibronectina

Atoxinogênica

HEp-2

Invasina

Apoptose

C. diphtheria

Diphtheria

67-72p adhesin

Fibrin

Fibrinogen

Pseudomembrane

Fibronectin

Nontoxigenic

HEp-2 cells

Invasin

Apoptosis

MICROBIOLOGIA MEDICA

Papel das hemaglutininas 67-72p de Corynebacterium diphtheriae na ligação a proteínas plasmáticas, superfícies celulares, invasão e indução de apoptose / Participation of hemagglutinin 67-72p of corynebacterium diphtheriae in binding to plasma proteins, cells surfaces, invasion and induction of apoptosis

Priscila Soares Sabbadini

16 June 2010

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Corynebacterium diphtheriae pode ser isolado tanto de quadros de difteria clássica, quanto de infecções sistêmicas, como endocardite. O fibrinogênio (Fbn) e a fibronectina (Fn) são glicoproteínas presentes na matriz extracelular de tecidos conjuntivos. A influência destas proteínas na patogênese das infecções locais e invasivas causadas por C. diphtheriae é objeto de estudo devido ao fato do bacilo diftérico poder ser encontrado em lesões nas quais o Fbn e a Fn são predominantes, incluindo a pseudomembrana diftérica e vegetações cardíacas presentes na endocardite infecciosa. São crescentes as evidências de que o C. diphtheriae pode, além de aderir, ser internalizado por células em cultura. No presente estudo, investigou-se a participação de C. diphtheriae e das proteínas de superfície 67-72p na aderência à Fn e ao Fbn de plasma humano e a eritrócitos. A aderência às células HEp-2 e internalização também foram analisadas. A participação de 67-72p nos mecanismos de morte celular foi avaliada através das colorações por Azul de Tripan e 46-diamidino-2-fenil indol (DAPI), pelo ensaio de redução utilizando dimetil-tiazol-difenil tetrazólio (MTT) e por citometria de fluxo. As 67-72p foram extraídas da superfície da amostra toxigênica C. diphtheriae subsp. mitis CDC-E8392 através de processos mecânicos e precipitação com sulfato de amônio saturado. Análises por SDS-PAGE e immunoblotting detectaram a presença das bandas protéicas de 67 e 72kDa nas amostras toxinogênicas e atoxinogênicas analisadas, as quais pertenciam aos biotipos fermentador e não fermentador de sacarose. C. diphtheriae foi capazes não só de formar agregados na presença de plasma de coelho, mas também de converter Fbn em fibrina independentemente da presença do gene tox. No entanto, a amostra atoxinogênica ATCC 27010 (tox-) foi menos aderente ao Fbn do que a homóloga ATCC 27012 (tox+). A interação bacteriana com eritrócitos foi inibida somente pela Fn. Ligações entre Fn e/ou Fbn com 67-72p foram demonstradas por dot blotting, ELISA e/ou ensaios utilizando fluorescência. As 67-72p foram capazes de inibir as interações bacterianas com o Fbn, indicando que 67-72p podem participar do processo de aderência do patógeno aos tecidos do hospedeiro. Através da microscopia óptica, demonstrou-se a ligação de 67-72p adsorvidas em microesferas de látex com células HEp-2. Anticorpos de coelho do tipo IgG anti 67-72p interferiram somente com a expressão do padrão de aderência do tipo difuso, normalmente apresentado pela amostra CDC-E8392. A Microscopia Eletrônica de Transmissão (MET) e a inibição da internalização bacteriana pela IgG anti 67-72p ou por 67-72p indicaram o papel de 67-72p como invasina. Alterações do citoesqueleto de células HEp-2 com acumulação de actina polimerizada, induzida por microesferas sensibilizadas com 67-72p, foi observada pelo fluorescent actin staining (FAS) test. Foi visualizado um aumento no número de bactérias viáveis no compartimento intracelular após tratamento de células HEp-2 ou dos microrganismos com Fn. A presença de partículas de látex adsorvidas com 67-72p no interior de vacúolos frouxos em células HEp-2 sugeriu que estas proteínas podem causar efeito citotóxico. A avaliação através das colorações com Azul de Tripan, DAPI e os ensaios de redução utilizando MTT demonstraram um decréscimo na viabilidade de células tratadas com 67-72p. As mudanças morfológicas observadas 3 horas após o início do tratamento com 67-72p incluíram vacuolização, fragmentação nuclear e formação de corpúsculos apoptóticos. A citometria de fluxo revelou um decréscimo de 15,13% no volume/tamanho de células tratadas com 67-72p. Além disso, o ensaio utilizando Iodeto de Propídio (IP) e Anexina V (AV)-FITIC demonstrou que havia 66,1% de células vivas (IP-/AV-), 16,6% de células em apoptose inicial (IP-/AV+) e 13,8% de células em apoptose tardia ou necrose secundária. Em conclusão, as 67-72p estão diretamente envolvidas na interação com Fn e Fbn. As proteínas não fimbriais 67-72p são hemaglutininas implicadas na aderência a células respiratórias e na internalização. Além disso, estas proteínas podem atuar como fatores de virulência em potencial para induzir apoptose de células epiteliais nos estágios iniciais da difteria e nas infecções invasivas causadas pelo C. diphtheriae / Corynebacterium diphtheriae have been isolated from classical diphtheria and systemic infections such as endocarditis. Fibrinogen (Fbn) and fibronectin (Fn) are high molecular-weight glycoproteins that may be found in extracellular matrix of connective tissues. Their influence in the pathogenesis of local and in invasive C. diphtheriae infection is object of interest due to the fact that diphtheria bacilli is recovered from lesions where such proteins are predominant, including pharyngeal pseudomembrane and valve heart vegetations in infectious endocarditis. There is growing evidence that C. diphtheriae may adhere to and be internalized by cells in culture. The present study investigated the participation of C. diphtheriae strains and 67-72p, a surface protein, in adherence to human plasma Fn, Fbn, erythrocytes, adherence to and internalization by HEp-2 cells. The participation of 67-72p in promoting cell death was evaluated by the Trypan blue, DAPI staining methods, methylthiazole tetrazolium (MTT) reduction assay and flow cytometry. The 67-72p was extracted from C. diphtheriae subsp. mitis CDC-E8392 toxigenic strain, by mechanical process and ammonium sulfate fractionation. SDS-PAGE and immunoblotting analysis detected the polypeptide bands of 67 and 72 kDa in all toxigenic and nontoxigenic strains from both sucrose-fermenting and non-fermenting biotypes. Diphtheria bacilli were capable to both form bacterial aggregates in rabbit plasma and to convert Fbn to fibrin independently to the presence of tox gene, albeit the ATCC 27010 (tox-) strain was less adherent to Fbn than the parental strain ATCC 27012 (tox+). Bacteria-erythrocytes interaction was inhibited only by Fn. Interactions of Fn and/or Fbn with 67-72p were demonstrated by dot blotting, ELISA and/or fluorescence assays. Bacteria-Fbn interaction was inhibited by 67-72p, indicating that 67-72p may participate in the adhesion of the pathogen to host tissues. The interaction of HEp-2 cells with 67-72p-adsorbed latex microspheres was demonstrated by light microscopy. Rabbit IgG anti 67-72p was shown to interfere with diffuse adherence phenotype to HEp-2 cells displayed by CDC-E8392, but not by other phenotypes. Transmission electron microscopy (TEM) and the inhibition of bacterial internalization by anti 67-72p IgG and 67-72p indicated the role of 67-72p as invasin. Cytoskeletal accumulation of polymerized actin in HEp-2 cells induced by 67-72p-microspheres was observed by the fluorescent actin staining (FAS) test. Fn enhanced the intracellular viability of all strains tested. The presence of 67-72p-latex particles inside spacious vacuoles (SV) in HEp-2 cells, suggested a citotoxic effect of these proteins. Evaluation by the Trypan blue staining method, 4,6-Diamidine-2-phenylindole dihydrochloride DAPI and the 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction assay showed a significant decrease in viability of HEp-2 cells treated with 0.2 mg/ml 67-72p. Morphological changes in HEp-2 cells (vacuolization, nuclear fragmentation, and the formation of apoptotic bodies) was observed after 3 h post-treatment with 67-72p. Flow cytometry revealed a 15.13% reduction apoptotic volume of HEp-2 cells treated with 0.2 mg/ml 67-72p. Moreover, a double-staining assay using Propidium Iodide (PI)/Annexin V (AV) demonstrated the numbers of vital (PI-/AV-) (66.1%) vs. early apoptotic (PI-/AV+) (16.6%) cells and late apoptotic or secondary necrotic cells (PI+/AV+) (13.8%). In conclusion, the 67-72p are directly implicated in C. diphtheriae interaction with Fn and Fbn. The non-fimbrial Fn/Fbn binding 67-72p are hemagglutinins directly implicated in adherence to and internalization by respiratory epithelial cells. Moreover, 67-72p may act as a potential virulence factor to induce apoptosis of epithelial cells in the early stages of diphtheria and C. diphtheriae invasive infection

Difteria

C. diphtheriae

Adesina 67-72p

Fibrina

Fibrinogênio

Pseudomembrana

Fibronectina

Atoxinogênica

HEp-2

Invasina

Apoptose

C. diphtheria

Diphtheria

67-72p adhesin

Fibrin

Fibrinogen

Pseudomembrane

Fibronectin

Nontoxigenic

HEp-2 cells

Invasin

Apoptosis

MICROBIOLOGIA MEDICA

Insights into the Host Cell Entry of Ehrlichia chaffeensis: Roles of the Bacterial Outer Membrane Protein EtpE

Mohan Kumar, Dipu

15 September 2014

No description available.

Immunology

Microbiology

Medicine

Ehrlichia chaffeensis

Human monocytic ehrlichiosis

EtpE

DNase X

GPI-1anchored protein

receptor, ligand

invasin

receptor-mediated endocytosis

CD147

hnRNP-K

actin

cytoskeletal mobilization

vaccine

N-WASP

ROS

NADPH Oxidase

lysosomes

vaccine