AvrA Exerts Inhibition of NF-κB Pathway in Its Naïve Salmonella Serotype through Suppression of p-JNK and Beclin-1 Molecules.

Avian salmonellosis caused by Salmonella enterica serovar Enteritidis (S. Enteritidis) and Pullorum (S. Pullorum) remains a big threat to the poultry industry and public hygiene. AvrA is an effector involved in inhibiting inflammation. Compared to AvrA from S. Enteritidis (SE-AvrA), the AvrA from S. Pullorum (SP-AvrA) lacks ten amino acids at the C-terminal. In this study, we compared the anti-inflammatory response induced by SP-AvrA to that of SE-AvrA. Transient expression of SP-AvrA in epithelial cells resulted in significantly weaker inhibition of NF-κB pathway activation when treated with TNF-α compared to the inhibition by SE-AvrA. SP-AvrA expression in the S. Enteritidis resulted in weaker suppression of NF-κB pathway in infected HeLa cells compared to SE-AvrA expression in the cells, while SP-AvrA expressed in S. Pullorum C79-13 suppressed NF-κB activation in infected HeLa and Caco 2 BBE cells to a greater extent than did SE-AvrA because of the higher expression of SP-AvrA than SE-AvrA in S. Pullorum. Further analysis demonstrated that the inhibition of NF-κB pathway in Salmonella-infected cells corresponded to the downregulation of the p-JNK and Beclin-1 protein molecules. Our study reveals that AvrA modifies the anti-inflammatory response in a manner dependent on the Salmonella serotype through inhibition of NF-κB pathway.

Identification of two Sel1-like proteins in SPI-19 of Salmonella enterica serovar Pullorum that can mediate bacterial infection through T3SS.

The type VI secretion system (T6SS) encoded by Salmonella Pathogenicity Island 19 (SPI-19) has been confirmed to be involved in bacterial infection or colonization in hosts and in the inhibition of the host T-cell immune response. However, deletion of the core genes (clpV, vgrG, and hcp2) encoding the T6SS apparatus does not affect the phenotypes caused by SPI-19-encoded T6SS. As Salmonella infection in host cells and survival in chickens are closely associated with the type III secretion system (T3SS), RNA-Seq was performed, and the results revealed that most T3SS genes were downregulated in the C79-13ΔSPI-19 mutant. To identify the SPI-19 genes involved in regulating T3SS genes expression, we constructed mutants of genes encoding potential regulators (RS09140 and RS09275) or proteins with Sel1-like motifs (RS09150 and RS09155) and analyzed their associated phenotypes. Deletion of RS09150 and RS09155 caused the decreased bacterial infection in avian cells and bacterial colonization in chicken organs. In addition, qRT-PCR results revealed that both mutants showed decreased expression levels of regulatory genes of T3SS. The present findings demonstrate that the two Sel1-like proteins RS09150 and RS09155 in S. Pullorum SPI-19 contribute to bacterial infection in chickens by mediating the expression of T3SS genes, indicating a potential crosstalk between SPI-19 and T3SS in Salmonella.

The SPI-19 encoded T6SS is required for Salmonella Pullorum survival within avian macrophages and initial colonization in chicken dependent on inhibition of host immune response.

SalmonellaPathogenicity Island 19 (SPI-19) encoded type VI secretion system (T6SS) is a virulence factor present in few serotypes of S. enterica, including S. Dublin, S. Gallinarum and S. Pullorum. Comparative genomic sequence analysis revealed that the gene clusters of SPI-19 showed high homology to T6SS2 locus from avian pathogenic Escherichia coli, implying the similar T6SS locus is potentially related to the host adaption of both pathogens. Deletion of SPI-19 in S. Pullorum caused the dramatically decreased invasion into chicken LMH epithelial cells and HD-11 macrophages, and affected survival of Salmonella within both cells. In addition, deletion of SPI-19 caused the decreased colonization of S. Pullorum in chicken liver, spleen, ileum, and cecum at the initial infection stage, and induced rapid bacterial clearance. However, the SPI-19/T6SS had no effect on bacterial killing activity and induction of cytotoxicity to HD-11 macrophages. Further analysis demonstrated SPI-19/T6SS was involved in mediating the inhibition of host Th1 and Th2 immune responses, resulting in persistent colonization of S. Pullorum in hosts.

rOmpF and OMVs as efficient subunit vaccines against Salmonella enterica serovar Enteritidis infections in poultry farms.

Salmonella enterica serovar Enteritidis remains the most prevalent serotype causing human salmonellosis through the consumption of contaminated foods, especially poultry products. The development of a subunit vaccine against S. Enteritidis can not only protect chickens against Salmonella infection in the poultry industry but also cut the transmission sources. In this study, both the expressed recombinant outer membrane protein F (rOmpF) and extracted outer membrane vesicles (OMVs) were developed as subunit vaccines against S. Enteritidis challenge in chickens. Immunization with the subunit vaccine could induce not only antibody production but also strong cell-mediated immune response. Both rOmpF plus QuilA adjuvant and OMVs alone had highly protective efficacy against S. Enteritidis challenge and rapidly decreased the colonization of bacteria in chicken. These findings revealed the potential application of rOmpF and OMVs as subunit vaccines in the poultry industry.

Evaluation of the Safety and Protection Efficacy of spiC and nmpC or rfaL Deletion Mutants of Salmonella Enteritidis as Live Vaccine Candidates for Poultry Non-Typhoidal Salmonellosis.

Salmonella enterica serovar Enteritidis (S. Enteritidis) is a host-ranged pathogen that can infect both animals and humans. Poultry and poultry products are the main carriers of S. Enteritidis, which can be transmitted to humans through the food chain. To eradicate the prevalence of S. Enteritidis in poultry farms, it is necessary to develop novel vaccines against the pathogen. In this study, we constructed two vaccine candidates, CZ14-1∆spiC∆nmpC and CZ14-1∆spiC∆rfaL, and evaluated their protective efficacy. Both mutant strains were much less virulent than the parental strain, as determined by the 50% lethal dose (LD50) for three-day-old specific-pathogen free (SPF) White Leghorns and Hyline White chickens. Immunization with the mutant candidates induced highly specific humoral immune responses and expression of cytokines IFN-γ, IL-1ß, and IL-6. In addition, the mutant strains were found to be persistent for almost three weeks post-infection. The survival percentages of chickens immunized with CZ14-1∆spiC∆nmpC and CZ14-1∆spiC∆rfaL reached 80% and 75%, respectively, after challenge with the parental strain. Overall, these results demonstrate that the two mutant strains can be developed as live attenuated vaccines.

Establishment of reference mandibular plane for anterior alveolar morphology evaluation using cone beam computed tomography.

To propose a method of establishing the reference mandibular plane (MP), which could be reestablished according to the coordinates of the reference points, and then facilitate the assessment of anterior alveolar morphology using cone beam computed tomography (CBCT), sixty patients with bimaxillary protrusion were randomly selected and CBCT scans were taken. The CBCT scans were transferred to Materialism's interactive medical image control system 10.01 (MIMICS 10.01), and three dimensional models of the entire jaws were constructed. Reference points determining the reference MP were positioned in the coronal, axial, sagittal windows, and the points were exactly located by recording their coordinates in the interfaces of software. The reference MP provided high intra-observer reliability (Pearson's r 0.992 to 0.999), and inter-observer reliability (intra-class correlation coefficients (ICCs) 0.996 to 0.999).