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The aim of this study is to investigate the distribution and sequence conservation of P6 outer membrane protein (OMP6)-encoding gene of nontypeable Haemophilus influenzae isolates as well as screen and identify the predominant T-and B-cell (T-B)-combined antigenic epitopes in OMP6 sequences and their immunogenicity.The entire omp6 genes of NTHi isolates were amplified by PCR and the amplification products were sequenced after T-A cloning.By using bioinformatic softwares,the sequence conservation and membrane location of OMP6 were analyzed as well as the T-B-combined antigenic epitopes in OMP6 were predicted.The immunogenicity and immunoreactivity of T-B-combined antigenic epitope peptides displayed by recombinant phage PⅢ proteins (rPⅢ) were determined by Western Blot assay and ELISA.The PCR showed that all the 35 NTHi isolates tested were detectable for omp6 gene.The identities of nucleotide and amino acid sequences of omp6 genes from 28 strains in the NTHi isolates were 98.3%-100% and 99.3 %-100%,respectively.OMP6 of NTHi was predicted as an outer membrane superficial protein that contains OMP6-2-25,OMP6-61-86 and OMP6-98-126 predicted T-B-combined antigenic epitopes.The immunoblotting assay and ELISA confirmed that OMP6-2-25 presented stronger hybridization band with NTHi antisera while 96.9% (59/62),69.4% (43/62) and 74.2% (46/62) of serum samples from NTHi-infected children were positive for OMP6-2-25,OMP6-61-86 and OMP6-98-126 T-B-combined antigenic epitope peptides,respectively.All the results lead to a conclusion thatomp6 is an extensive distribution and sequence conserved gene of NTHi,and OMP6-2-25 is the predominant T-B-combined antigenic epitopes which can be used as the candidates for developing multiple antigenic peptide vaccine against NTHi.
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Objective To investigate the in vitro interference of cefotaxime at subinhibitory concentrations [sub-minimal inhibitory concentrations (MIC)] on biofilm formation by nontypeable Haemophilus influenzae (NTHi). Methods The interference of subinhibitory concentrations of cefotaxime on biofilm formation of the clinical strong-biofilm forming isolates of NTHi was evaluated by a microtiter plate biofilm formation assay. The effect of sub-MIC cefotaxime on bacterial cell-surface hydrophobicity was determined using a standard microbial adhesion to n-hexadecane test. Additionally, the effects on bacterial adherence to human fibronectin and expression of bacterial adhesins were also investigated. Results Subinhibitory concentrations of cefotaxime, both at 0.1× and 0.5× MIC levels, efficiently reduced the NTHi biofilm formation, and this effect was independent of decreasing bacterial viability. Sub-MIC cefotaxime also decreased bacterial cell-surface hydrophobicity and reduced adherence to human fibronectin. Inhibition in the P2 and P6 gene expressions upon exposure to sub-MIC cefotaxime was also noted. Conclusions Taken together, our results indicate that sub-MIC cefotaxime interferes with the formation of NTHi biofilm, and this effect is feasibly related to the interference with cell-surface hydrophobicity, fibronectin-binding activity as well as alteration of the P2 and P6 gene expression. The findings of the present study therefore provide a rationale for the use of subinhibitory concentrations of cefotaxime for treatment of NTHi-related diseases.
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AIM:To investigate the molecular mechanism of nontypeable Haemophilus influenzae ( NTHi)-in-duced MUC5AC expression in the human airway NCI-H292 cells.METHODS:Bronchial epithelial NCI-H292 cells were cultured in vitro.The production of MUC5AC and matrix metalloproteinase 9 (MMP-9) after stimulation with NTHi was analyzed by enzyme-linked immunosorbent assay (ELISA).The enzymatic activity of MMP-9 was detected by gelatin zy-mography.In addition, the cells were pretreated with different inhibitors such as AG 1478, LY294002, DPI, NAC and GM6001 before stimulation, which specifically inhibit epidermal growth factor receptor (EGFR), phosphatiadylinositol 3-ki-nase (PI3K), NADPH oxidase, reactive oxygen species (ROS) and MMP-9, respectively, and then the production of MUC5AC or MMP-9 was determined.RESULTS:NTHi-stimulated NCI-H292 cells exhibited a time-dependent increase in MMP-9 secretion and activity .NTHi also increased the activity of Rac 1 and the production of ROS .Pretreatment of AG1478 and LY294002 decreased the Rac1 activity, and preincubation of DPI or Rac 1 inhibitor significantly abrogated ROS production.In addition, secretion of MMP-9 and the enzymatic activity was decreased by treatment of NAC and NSC23766.Furthermore, inhibition of the MMP-9 activity by GM6001 significantly inhibited MUC5AC production.CON-CLUSION:EGFR/PI3K/Rac1/NADPH oxidase/ROS/MMP-9 regulates MUC5AC production in NTHi-challenged NCI-H292 cells.
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Objective To investigate the biofilm (BF)formation rule of nontypeable Haemophilus influenzae (NTHi)in vitro, and to observe the internal structure of BF by scanning electron microscope (SEM). Methods NTHi ATCC49247 was investigated in the present study,Pseudomonas aeruginosa (PA)PAO1 was cultured as positive control,at the same time blank control group was set up.The BF of the bacteria were cultured and then collected on day 1,2,3,4,5,6,and 7.The BF formation was detected by crystal violet staining and plate counting and the structure of BF formed by ATCC49247 was observed under SEM on day 3.Results The plate colony counting of biofilm BF by ATCC49247 and PAO1 raised during first 3 d, and then declined to (0.823 6±0.007 5)×107 cfu·mL-1 and (0.942 6±0.019 9)×107cfu·mL-1 respectively on day 7. The differences between two groups were statistically significant on day 3,4,5,and 6 (P<0.05).The differences between different time points in the same bacteria group were statistically significant (P<0.05).The densities of BF formed by ATCC49247 and PAO1 raised during the first 3 d.The absorbances on 570 nm wavelength (A570 )in two groups were 2.717 4±0.017 2 and 2.885 3±0.039 0 ,respectively;and then the A570 values in two groups declined to 0.151 7±0.074 5 and 1.196 9±1.108 5,respectively on day 7;the differences between bacteria groups and blank control were statistically significant (P<0.05 );the differences between two bacteria groups were statistically significant on day 3,4,5,and 6 (P<0.05);the differences between different time points in the same bacteria group were statistically significant (P<0.05).On day 3,the obvious BF formed by ATCC49247 were observed under SEM.Conclusion BF could be formed by NTHi in vitro;crystal violet staining,plate colony counting and SEM could be taken as conventional methods to detect BF.
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Objective To investigate the distribution and sequence conservation of genes encoding the outer membrane lipoprotein D(LPD)of nontypeable Haemophilus influenzae(NTHi)isolates and to ana-lyze the immunogenicity and the immunoprotective effects of the expressed recombinant LPD(rLPD). Meth-ods PCR analysis was used to detect the genes encoding LPD of NTHi isolates. The PCR products were se-quenced after T-A cloning. A prokaryotic expression system for genes encoding LPD was established to ex-press the rLPD. Ni-NTA affinity chromatography was used for purification. SDS-PAGE and Bio-Rad Gel Im-age Analyzer were used to detect the expression and the yield of rLPD. The antigenicity and immunoreactivity of rLPD were detected by ELISA and Western blot assay. The immunoprotective effects of rLPD against lethal dose of NTHi were evaluated in a mouse model. Results All of the tested NTHi isolates were positive for the genes encoding LPD. They shared 98. 0% -99. 4% homologies in nucleotide sequences and 98. 5% -100% homologies in amino acid sequences. The established prokaryotic expression system expressed rLPD with a high yield. High levels of antibody in rabbits were induced by the rLPD. The anti-NTHi antiserum samples from rabbits and children could recognize and react with the rLPD. The result of ELISA indicated that 93. 6%(58 / 62)and 53. 2%(32 / 62)of the serum samples from children with NTHi infection were positive for rLPD-IgM and rLPD-IgG,respectively. The rLPD at concentrations of 100 μg and 200 μg could respectively protect 60. 0% and 73. 3% of mice from lethal NTHi infection. Conclusion The genes enco-ding LPD were extensively distributed in NTHi isolates with high sequence conservation. The expressed rLPD could be used as a potential candidate antigen in the development of genetic engineering vaccine against NTHi infection considering its high immunogenicity and immunoprotective effects.
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Haemophilus influenzae (Hi) is a pathogen exclusively found in humans. It causes a wide range of infections from the upper respiratory tract to serious invasive diseases. Such as pneumonia, septicemia and meningitis. Strains of Hi are usually classif ied into six serotypes a to f and nontypeable H. influenzae (NTHI) according to the antigenicities and compositions of their polysaccharide capsules. Hib was a common cause of serious infections in younger children. The polysaccharide-protein conjugate vaccines against Hib had almost eliminated H. influenzae as a cause of pediatric meningitis. However, NTHI remains an important pathogen, particularly in children and the elderly. Efforts to understand and control NTHI disease have been hampered by the diversity of these bacteria. This review introduced the study progress about pathogenic mechanism of NTHI. In order to provide the help for development of vaccine, clinic treatment and prevent the occurrence of diseases causing by NTHI.
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Objective:To explore the effect of nontypeable Haemophilus influenzaen(NTHi)strain ATCC49247on pri-mary rabbit tracheal epithelial(TE)cells.Methods:TE cells were isolated with low temperature protease digestion and cul-tured on collagen gel-coated membranes at an air-liquid interface in serum-free medium.Under these conditions,TE cells were proliferated and differentiated into a pseudostratified mucociliary epithelium,which were infected by NTHi.Morphologic changes of the cells were examined by scanning electron microscopy(SEM)and transmission electron microscopy(TEM)after 24h.Results:SEM showed that bacteria adhered to non-ciliated cells;death or apoptosis occurred in90%of TE cells and cil-iaries were broken.TEM showed NTHi adhered to the cell surface on which there were many microvillus.Lamellipodia and microvilli surrounded bacteria within vacuoles of airway cells.Conclusion:NTHi can attach to non-ciliated cells,the latter de-vours the bacteria by lamellipodia and microvilli.NTHi is toxic to TE cells,resulting in the death or apoptosis of TE cells.