Aims: To investigate the distribution of staphylococcal enterotoxin genes (se) and the molecular features of community‐associated methicillin‐sensitive/resistant Staphylococcus aureus (CA‐MSSA/MRSA) isolates in the nostrils of healthy pets and their owners. Methods and Results: A total of 114 Staph. aureus isolates were identified from 1563 nasal swab samples, and CA‐MRSA accounted for 20·2% (n = 23) of the total identified isolates. CA‐MRSA isolates (91·3%, 21/23) harboured higher percentage of se than did CA‐MSSA isolates (58·2%, 53/91) (P < 0·01), and the two highest se profiles of CA‐MRSA were seb‐sek‐seq (42·9%, 9/21) and seb‐sek‐seq‐sep (28·6%, 6/21). Of the MSSAs, 42·8% (39/91) were resistant to at least one antimicrobial drug and 8·8% (8/91) were multidrug resistant (MDR). We identified nine staphylocoagulase (SC) types (I–VIII and X) and three multilocus sequence types (ST59‐MRSA‐IV/V, ST‐239‐MRSA‐V and ST241‐MRSA‐V). SC VII (23·4%, 22/94), a staphylococcal food poisoning isolate found mainly in Japan, and ST‐59‐MRSA‐IV/V (85%, 17/20), a widespread CA‐MRSA clone found mainly in Taiwan, both were the most predominant types. Phylogenetic analysis together with se and molecular characteristics obtained using pulsed‐field gel electrophoresis showed that high levels of antimicrobial resistance and the se‐carrying clone ST59‐MRSA‐IV/V‐SC VII were all clustered in genogroup 5. Conclusions: The CA‐MRSA clone of se‐carrying‐MDR‐ST‐59‐IV/V‐SC VII was identified predominantly in this study, and this clone might play a significant role in staphylococcal food poisoning in community settings. Significance and Impact of the Study: To our knowledge, this is the first study focussing on enterotoxin‐carrying CA‐MRSA/MSSA in pets and their owners, and the results support the future warnings in animal–human bond caused by CA‐staphylococci in the commonwealth and the need to take cautions worldwide.
Lactococcus garvieae (L. garvieae) is an important pathogen that causes enormous economic losses in both marine and freshwater aquaculture. At present, antibiotics are the only option for farmers to reduce the losses caused by L. garvieae. However, the usage of antibiotics leads to environmental pollution and the production of drug-resistant strains of bacteria. Therefore, vaccination is preferred as an alternative method to prevent infectious diseases. In this study, we describe an effective approach to the production of an oral biofilm vaccine, using bacteria grown on chitosan particles to form biofilms, and thus providing an inactive pathogen that enhances the immune response in fish. We observed the formation of a biofilm on chitosan particles and administered the novel oral biofilm vaccine to fish. We analyzed the immune responses, including antibody production, phagocytic ability, albumin/globulin ratio and immune-related genes, of vaccinated and control groups of black mullet. Our results show that the phagocytic ability of the biofilm vaccine group was 84%, which is significantly higher than that of the control group, and the antibody production in this group was significantly higher compared with the other group. The mRNA expression levels of immune-related genes (TLR2, IL-1β, TNF-α) were significantly upregulated in the spleen after vaccination. In challenge experiments, the relative percent survival (RPS) was 77% in the biofilm vaccine group, 18% in the whole-cell vaccine group, and 0% in the chitosan particle group at 32 days post-vaccination. In addition, we also found that the relative percent survival (RPS) at 1 day post-vaccination was 74% in the biofilm vaccine group, 42% in the whole-cell vaccine group, and 26% in the chitosan particle group. In both long-term and short-term challenge experiments, the viability of the biofilm vaccine group was significantly higher than that of the whole-cell, chitosan particle and PBS groups. We conclude that based on its protective effect, the L. garvieae biofilm vaccine is better than the whole-cell vaccine when challenged several weeks after vaccination. In addition, the biofilm vaccine also has a greater protective effect than the whole-cell vaccine when challenged immediately after vaccination. Therefore, the biofilm vaccine might represent a novel method for the prevention and treatment of L. garvieae infection.
A monoclonal antibody (MAb) was generated against the capsid protein (ORF 72) of koi herpesvirus (KHV) isolated from diseased koi Cyprinus carpio in Taiwan. The clone of MAb-B2 was obtained by immunizing mice with whole virus particles and further identified using indirect enzyme-linked immunosorbent assay and Western blot assay. In addition, it detected KHV in KHV-infected cells but not in those of mock-infected cells as demonstrated by indirect immunofluorescence assay. The neutralization test showed that MAb-B2 neutralized KHV. Furthermore, we uncovered that MAb-B2 recognizes the ORF72 of KHV as revealed by liquid chromatography-tandem mass spectrometry and Western blot assays. Additionally, MAb-B2 has been used as a diagnostic tool for detection of KHV in clinical samples by immunohistochemistry. Collectively, our results indicated that MAb-B2 could be used in the development of a diagnostic kit for diagnosis of KHV infections and ORF72 protein of KHV might be a candidate for future vaccine development.
Abalone herpesvirus (AbHV) infection of cultured abalones Haliotis diversicolor supertexta induced acute high mortality in 2003. Years later, sporadic mortality was noted for an extended period of months, resulting in high cumulative mortality. Moribund abalones were analyzed using PCR, in situ hybridization, and histopathology, because thus far no viral particles have been observed by transmission electron microscopy. PCR using 20 primer sets, specifically designed from sequences of acute AbHV infection, failed to amplify any products from abalones suffering from chronic mortality. Subsequently, a 1406-bp sequence was amplified from chronic moribund abalones, and this sequence showed a 92% (553 bp/602 bp) homology with the gene of an AbHV Taiwan isolate (NCBI serial no. KF537536.1), suggestive of an AbHV pathotype. Histopathology of AbHV pathotype infection showed hemocyte infiltration in the lamina propia of the digestive tract, and hemocytes of various stages were evident, as well as the loss of seminal tubules in the gonad. In situ hybridization revealed that in AbHV infection, positive signals were restricted to the neural ganglia, while in AbHV pathotype infection, positive signals were observed only in the hemocytes. It appeared that the tropism of AbHV shifted from mainly neurotropic in AbHV infection to mainly hemocytotropic in abalone suffering from chronic mortality. Abalone shriveling syndrome-associated virus co-infection was detected in some of AbHV pathotype infection events. Further studies are needed to better understand the pathogenesis of AbHV pathotype affecting H. diversicolor in Taiwan.
Infection of Streptococcaceae family in fish is common and associated with the increased water temperature. The outbreak of Streptococcaceae infection happens in summer and causes economical loss in fish industry in Taiwan. The objectives of the present study were to investigate the antimicrobial susceptibility of Streptococcaceae isolated from fish in Taiwan. The resistance determinants of erythromycin and tetracycline in Lactococcus isolates were also studied. In total, 61 Enterococcus, Lactococcus and Streptococcus isolates from different fish species and regions during 2001–2011 were collected and analyzed. Disc diffusion assay and minimum inhibitory concentration (MIC) were carried out to determine antimicrobial susceptibility. High resistance rate of tetracycline (76%) was noted in Enterococcus and Lactococcus isolates, in contrast to Streptococcus isolates with no resistance to tetracycline. A total of 26 isolates of Lactococcus sp. with high MIC value of tetracycline (≧ 256 μg/mL) possessed tet(S). Among them, one isolate of L. lactis subsp. lactis with resistance to both of erythromycin and tetracycline (MIC ≧ 256 μg/mL and ≧ 256 μg/mL, respectively) carried resistance determinants of tet(S) and erm(B) on plasmids and transferred the resistance determinants to E. faecalis JH2-2 by conjugation. Tetracycline-resistant L. garvieae isolates transferred the resistance determinant tet(S) to E. faecalis JH2-2 and tetracycline-susceptible L. garvieae. The present study suggested that under antimicrobial pressure, erythromycin- and tetracycline-resistance determinants in Lactococcus isolates could spread to susceptible Lactococcus and other bacterial pathogens.
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