Detection of Salmonella enterica subsp. enterica Serovar Cubana from Naturally Contaminated Chick Feed.

Because some significant outbreaks of human salmonellosis have been traced to contaminated animal feed, the rapid and efficient detection of Salmonella in feed is essential. However, the current U.S. Food and Drug Administration Bacteriological Analytical Manual (BAM) culture method that uses lactose broth as a preenrichment medium has not reliably supported the results of real-time PCR assays for certain foods. We evaluated the BAM culture method and a quantitative real-time PCR (qPCR) assay using two preenrichment media, modified buffered peptone water and lactose broth, to detect Salmonella enterica subsp. enterica serovar Cubana in naturally contaminated chick feed. After 24 h of incubation, the qPCR method was as sensitive as the culture method when modified buffered peptone water was used as the preenrichment medium but less sensitive than culture when lactose broth was used. After 48 h of incubation, detection of Salmonella Cubana by qPCR and by culture in either preenrichment medium was equivalent. We also compared the performance of the traditional serotyping method, which uses pure cultures of Salmonella grown on blood agar, to two molecular serotyping methods. The serotyping method based on whole genome sequencing also requires pure cultures, but the PCR-based molecular serotyping method can be done directly with the enriched culture medium. The PCR-based molecular serotyping method provided simple and rapid detection and identification of Salmonella Cubana. However, whole genome sequencing allows accurate identification of many Salmonella serotypes and highlights variations in the genomes, even in tight genomic clusters. We also compared the genome of the chick feed isolate with 58 Salmonella Cubana strains in GenBank and found that the chick feed isolate was very closely related to an isolate from a foodborne outbreak involving alfalfa sprouts.

Characterization of extended-spectrum ß-lactamase (ESBL) producing non-typhoidal Salmonella (NTS) from imported food products.

Food contaminated with extended-spectrum ß-lactamase (ESBL)-producing Salmonella enterica has emerged as an important global issue due to the international food-product trade. Therefore, the purpose of this study was to investigate whether imported food products can serve as a reservoir for non-typhoidal Salmonella (NTS) that can transmit ß-lactam-resistance to humans through ingestion of the contaminated food. NTS isolates (n=110) were collected from various imported food products (n=3480) from 2011 to 2013. The NTS isolates were analyzed by serotyping, antimicrobial susceptibility tests, and plasmid profiling. Salmonella ser. Weltevreden, Salmonella ser. Newport, Salmonella ser. Senftenberg, Salmonella ser. Virchow, Salmonella ser. Enteritidis, Salmonella ser. Typhimurium, and Salmonella ser. Bareilly were the most prevalent serovars. Nine NTS strains were resistant to ampicillin and/or one or more cephalosporins (MIC>32 µg/mL). Polymerase chain reaction (PCR) detection revealed that all nine isolates carried the bla(TEM-1) ß-lactamase gene, with or without the bla(CTX-M-9) or bla(OXA-1) genes. Two isolates, PSS_913 and PSS_988, exhibited decreased susceptibility to extended-spectrum cephalosporins and ampicillin. Plasmids ranging in size from less than 8 to over 165 kbp, from all of the 9 resistant isolates, belonged to the IncHI1, IncI1, IncN, or IncX groups. Conjugation experiments and Southern hybridization, using bla(TEM-1), confirmed the plasmid-mediated transfer of ESBL genes, which resulted in increased MICs of ß-lactams for Escherichia coli transconjugants. The contamination of imported food products by NTS with conjugative plasmid-borne ESBL genes may contribute to the spread of ESBL-producing NTS and compromise the therapeutic activity of extended-spectrum ß-lactam antibiotics.

Interlaboratory Validation for a Real-Time PCR Salmonella Detection Method Using the ABI 7500 FAST Real-Time PCR System.

Sixteen FERN (Food Emergency Response Network) member laboratories collaborated in this study to verify extension of the real-time PCR Salmonella detection method originally designed for the single-tube Cepheid SmartCycler II and validated against the Salmonella method of the U. S. Food and Drug Administration Bacteriological Analytical Manual to the Applied Biosystems (ABI) 7500 FAST Real-Time PCR system multiwell plate platform. Four foods were selected for this study: chili powder, soft cheese, fish, and tomatoes; these foods represent products that are commonly analyzed for the presence of Salmonella for regulatory purposes. Each food consisted of six uninoculated control samples, six samples inoculated with low Salmonella levels (target 1 to 5 CFU/25 g), and six samples inoculated with high levels (target 10 to 50 CFU/25 g). All samples were tested for Salmonella using the 24-h quantitative PCR (qPCR) method for detecting Salmonella, which utilizes modified buffered peptone water as the sole enrichment medium and an internal control for the qPCR. Each of these 18 samples was individually analyzed for Salmonella by the collaborating laboratories using both the ABI 7500 FAST system (alternative method) and the SmartCycler II system (reference method). Statistical analysis of the data revealed no significant difference (P ≥ 0.05) between these two qPCR platforms except for the chili powder samples. The differences noted with chili powder (P = 0.0455) were attributed to the enhanced sensitivity of the ABI 7500 FAST system compared with the SmartCycler II system. The detection limit of both qPCR methods was 0.02 to 0.15 CFU/g. These results provide a solid basis for extending the 24-h qPCR Salmonella method to the ABI 7500 FAST system for high-throughput detection of Salmonella in foods.

Evaluation and comparison of rapid methods for the detection of Salmonella in naturally contaminated pine nuts using different pre enrichment media.

Foodborne outbreaks, involving pine nuts and peanut butter, illustrate the need to rapidly detect Salmonella in low moisture foods. However, the current Bacteriological Analytical Manual (BAM) culture method for Salmonella, using lactose broth (LB) as a pre enrichment medium, has not reliably supported real-time quantitative PCR (qPCR) assays for certain foods. We evaluated two qPCR assays in LB and four other pre enrichment media: buffered peptone water (BPW), modified BPW (mBPW), Universal Pre enrichment broth (UPB), and BAX(®) MP media to detect Salmonella in naturally-contaminated pine nuts (2011 outbreak). A four-way comparison among culture method, Pathatrix(®) Auto, VIDAS(®) Easy SLM, and qPCR was conducted. Automated DNA extraction techniques were compared with manual extraction methods (boiling or InstaGene™). There were no significant differences (P > 0.05) among the five pre enrichment media for pine nuts using the culture method. While both qPCR assays produced significantly (P ≤ 0.05) higher false negatives in 24 h pre enriched LB than in the other four media, they were as sensitive as the culture method in BPW, mBPW, UPB, and BAX media. The VIDAS Easy and qPCR were equivalent; Pathatrix was the least effective method. The Automatic PrepSEQ™ DNA extraction, using 1000 µL of pre enrichment, was as effective as manual extraction methods.

Whole-Genome Sequencing of Salmonella enterica subsp. enterica Serovar Cubana Strains Isolated from Agricultural Sources.

We report the draft genomes of Salmonella enterica subsp. enterica serovar Cubana strain CVM42234, isolated from chick feed in 2012, and S. Cubana strain 76814, isolated from swine in 2004. The genome sizes are 4,975,046 and 4,936,251 bp, respectively.

The sub-species characterization and antimicrobial resistance of Listeria monocytogenes isolated from domestic and imported food products from 2004 to 2011.

Thirty-five Listeria monocytogenes strains isolated from domestic and imported food products including seafood, vegetables, and dairy foods were characterized by serotyping, molecular sub-typing, and antimicrobial susceptibility. L. monocytogenes serovars 1/2a and 1/2b strains were dominant as compared to other two serovars 4b and 1/2c strains. The dendrogram of AscI or ApaI-digested PFGE profiles of L. monocytogenes strains was classified into 23 (with 8 groups) or 3 (with 2 groups) different PFGE types, respectively. The AscI-digested groups consisted of the same serovar or food-source. Antimicrobials such as ampicillin, gentamicin, and trimethoprim-sulfamethoxazole are widely used in the treatment of listeriosis. Of the isolates used in this study, NCTR_LM14 and NCTR_LM57 were resistant to several classes of antimicrobials including aminoglycosides, penicillin, tetracycline, glycopeptide and fluoroquinolones. The multi-antimicrobial resistant isolates also showed higher efflux pump activity as compared to the antimicrobial sensitive strains NCTR_LM06 and L. monocytogenes EGD-e. This study demonstrates that L. monocytogenes isolates from various food products are genetically diverse with some isolates being resistant to more than 3 different antibiotic classes. This study also indicates that the efflux pump activity of the antibiotic resistant strains was higher than antimicrobial susceptible strains. Therefore, we propose that the antibiotic resistance observed in these strains may be conferred by the results of a highly active efflux pump system.

Development of a custom 16S rRNA gene library for the identification and molecular subtyping of Salmonella enterica.

The use of 16S rRNA gene sequencing within the regulatory workflow may help to reduce the time and labor involved in the identification and differentiation of Salmonella enterica isolates. However, a comprehensive, standardized reference library is needed in order to use this method with regulatory samples. The goal of this project was to acquire 16S rRNA partial and full gene sequences for a variety of S. enterica isolates and to use these sequences to build a custom 16S rRNA reference library. A total of 535 S. enterica isolates representing over 100 serotypes and 5 subspecies were selected for 16S rRNA partial gene sequencing (~500 bp) and 66 isolates representing 32 serotypes and 2 subspecies were selected for 16S rRNA full gene sequencing (~1500 bp). PCR, sequencing, and automated sequence assembly and editing were carried out using the MicroSEQ ID Microbial Identification System (Applied Biosystems). High quality sequences were obtained for 94.4% and 95.5% of the isolates sequenced over the partial and full genes, respectively. These sequences did not show sufficient divergence to reliably differentiate serotypes; however, they could be differentiated using 16S rRNA sequence typing based on intragenomic heterogeneity. A total of 83 unique 16S sequence types were obtained for use in the partial gene library and 58 unique 16S sequence types were obtained for entry into the full gene library. Preliminary sequencing results with one isolate analyzed in replicate were promising, with consistent matches to a specific 16S type in the custom library. The result of this study is a custom S. enterica 16S rRNA type library for potential use in the identification of isolates at the species, subspecies, and molecular subtype level. Further work will include validating the method for parameters such as exclusivity, sensitivity, and reproducibility.

Detection and Identification of Salmonella enterica, Escherichia coli, and Shigella spp. via PCR-electrospray ionization mass spectrometry: isolate testing and analysis of food samples.

An assay to identify the common food-borne pathogens Salmonella, Escherichia coli, Shigella, and Listeria monocytogenes was developed in collaboration with Ibis Biosciences (a division of Abbott Molecular) for the Plex-ID biosensor system, a platform that uses electrospray ionization mass spectroscopy (ESI-MS) to detect the base composition of short PCR amplicons. The new food-borne pathogen (FBP) plate has been experimentally designed using four gene segments for a total of eight amplicon targets. Initial work built a DNA base count database that contains more than 140 Salmonella enterica, 139 E. coli, 11 Shigella, and 36 Listeria patterns and 18 other Enterobacteriaceae organisms. This assay was tested to determine the scope of the assay's ability to detect and differentiate the enteric pathogens and to improve the reference database associated with the assay. More than 800 bacterial isolates of S. enterica, E. coli, and Shigella species were analyzed. Overall, 100% of S. enterica, 99% of E. coli, and 73% of Shigella spp. were detected using this assay. The assay was also able to identify 30% of the S. enterica serovars to the serovar level. To further characterize the assay, spiked food matrices and food samples collected during regulatory field work were also studied. While analysis of preenrichment media was inconsistent, identification of S. enterica from selective enrichment media resulted in serovar-level identifications for 8 of 10 regulatory samples. The results of this study suggest that this high-throughput method may be useful in clinical and regulatory laboratories testing for these pathogens.

The evaluation of a PCR-based method for identification of Salmonella enterica serotypes from environmental samples and various food matrices.

The most commonly used method for serotyping Salmonella spp. is based on the Kaufmann-White scheme, and is composed of serological reactions using antibodies to LPS agglutinins. The multiplex PCR used in this investigation was established by Kim et al. to serotype the 30 most common clinical Salmonella serotypes, as determined by CDC. The PCR assay consists of two five-plex reactions and a single two-plex PCR reaction, based on six genetic loci from Salmonella enterica serotype Typhimurium and four loci from S. enterica serotype Typhi. In this investigation, we further evaluated the method for serotyping Salmonella spp. using a reference collection, environmental samples collected from a Mid-Atlantic region tomato farm study, four food matrices spiked with different Salmonella serotypes and a proficiency test. The PCR assay was first evaluated using DNA isolated from pure cultures of isolates obtained from various clinical and environmental samples, and then DNA isolated from broth cultures of food matrices of "Red round" and Roma tomatoes, Romaine lettuce, green onions and Serrano peppers spiked with serotypes Newport, Typhimurium, Javiana and Saintpaul, respectively. The results showed that the PCR assay correctly serotyped Salmonella spp. from the clinical, environmental, spiked food matrices, and proficiency test samples. These findings are significant because the PCR assay was successful in the identification of Salmonella in the spiked samples in a broth culture containing other non-salmonella organism. This method may be a useful resource for the food safety community.

Molecular characterization of Salmonella enterica serovar Saintpaul isolated from imported seafood, pepper, environmental and clinical samples.

A total of 39 Salmonella enterica serovar Saintpaul strains from imported seafood, pepper and from environmental and clinical samples were analyzed for the presence of virulence genes, antibiotic resistance, plasmid and plasmid replicon types. Pulsed-field gel electrophoresis (PFGE) fingerprinting using the XbaI restriction enzyme and plasmid profiling were performed to assess genetic diversity. None of the isolates showed resistance to ampicillin, chloramphenicol, gentamicin, kanamycin, streptomycin, sulfisoxazole, and tetracycline. Seventeen virulence genes were screened for by PCR. All strains were positive for 14 genes (spiA, sifA, invA, spaN, sopE, sipB, iroN, msgA, pagC, orgA, prgH, lpfC, sitC, and tolC) and negative for three genes (spvB, pefA, and cdtB). Twelve strains, including six from clinical samples and six from seafood, carried one or more plasmids. Large plasmids, sized greater than 50 kb were detected in one clinical and three food isolates. One plasmid was able to be typed as IncI1 by PCR-based replicon typing. There were 25 distinct PFGE-XbaI patterns, clustered to two groups. Cluster A, with 68.5% similarity mainly consists of clinical isolates, while Cluster C, with 67.6% similarity, mainly consisted of shrimp isolates from India. Our findings indicated the genetic diversity of S. Saintpaul in clinical samples, imported seafood, and the environment and that this serotype possesses several virulent genes and plasmids which can cause salmonellosis.

A quantitative PCR assay for rapid detection of Shigella species in fresh produce.

A quantitative PCR (qPCR) assay with two primers and a TaqMan probe targeting conserved regions of the specific ipaH gene of Shigella species and enteroinvasive Escherichia coli (EIEC) were developed. This qPCR assay was used to identify 206 Shigella strains (including four Shigella species with all serotypes and two provisional Shigella species), 3 EIEC strains, and 113 non-Shigella strains with 100% accuracy. Pure cultures of six Shigella reference strains were used to derive standard curves to determine the detection limit and efficiency of the qPCR method. The ipaH qPCR assay had an equally low detection limit (0.12 to 0.74 CFU per PCR) for the four Shigella species tested. The average qPCR efficiency was 99.29% (95.36 to 103.92%). The detection limit of the qPCR assay tested on 15 varieties of inoculated fresh produce ranged from 0.4 to 16 CFU/100 ml of buffer rinse. This qPCR assay took the variation of wild-type nucleotides into consideration and was used successfully to screen fresh produce. This highly sensitive qPCR assay can be completed within 24 h and has potential use as a screening tool for all four Shigella species and EIEC in food samples.

Interlaboratory validation of a real-time PCR 24-hour rapid method for detection of Salmonella in foods.

The efficacy of a 24-h Salmonella real-time, or quantitative, PCR (qPCR) detection method was assessed through a collaborative effort involving eight Federal and state laboratories. Eleven foods including mashed potatoes, soft cheese, chili powder, chocolate, eggs, sprouts, apple juice, fish, shrimp, ground beef, and ground chicken were tested. For each food, seven blind samples were distributed to each participant for testing. These included six samples equivalently inoculated with 1 to 5 CFU/25 g of various serotypes of Salmonella (Gaminara, Weltevreden, Heidelberg, Senftenberg, Enteritidis, Newport, Typhimurium, and Kentucky for each food) and 10 to 50 CFU/25 g of the competitor Enterobacter cloacae. The seventh sample was inoculated with 10 to 50 CFU/25 g of the competitor, E. cloacae, only. These samples were tested for Salmonella by using four methods in parallel: (i) 24-h qPCR method detecting Salmonella from modified buffered peptone water enrichment medium; (ii) 48-h qPCR method detecting Salmonella from a secondary selective enrichment broth; (iii) modified Bacteriological Analytical Manual method; and (iv) VIDAS, an immunoassay system. The results of the statistical analysis showed there was no significant (P > or = 0.05) difference between either of the qPCR methods and the modified Bacteriological Analytical Manual method for 10 of 11 foods. For the one exception, sprouts, detection by qPCR required 48 h. Both qPCR methods showed a detection limit of 0.08 to 0.2 CFU/g. These results provide a solid basis for using this 24-h qPCR rapid screening method to detect Salmonella in foods.

Identification and characterization of Class 1 integron resistance gene cassettes among Salmonella strains isolated from imported seafood.

A total of 210 Salmonella isolates, representing 64 different serovars, were isolated from imported seafood samples, and 55/210 isolates were found to be resistant to at least one antibiotic. Class 1 integrons from three multidrug-resistant Salmonella enterica strains (Salmonella enterica serovars Newport [strain 62], Typhimurium var. Copenhagen [strain 629], and Lansing [strain 803], originating from Hong Kong, the Philippines, and Taiwan, respectively) were characterized. Southern hybridization of plasmids isolated from these strains, using a class 1 integron probe, showed that trimethoprim-sulfamethoxazole and streptomycin resistance genes were located on a megaplasmid in strain 629. Our study indicates that imported seafood could be a reservoir for Salmonella isolates resistant to multiple antibiotics.

Rapid detection of Salmonella in foods using real-time PCR.

Conventional methods for detection of Salmonella serovars in foods are generally time-consuming and labor intensive. A real-time PCR method has been developed with custom designed primers and a TaqMan probe to detect the presence of a 262-bp fragment of the Salmonella-specific invA gene. The method has been tested with a total of 384 field-isolated Salmonella serovars and non-Salmonella stock strains, as well as 420 U.S. Food and Drug Administration food samples, comprising a variety of food matrices. The method was highly specific in detecting Salmonella in spiked chili powder and shrimp samples, with a sensitivity of 0.04 CFU/g. In addition, the method is faster, more accurate, and less costly than the traditional U.S. Food and Drug Administration's Bacteriological Analytical Manual cell-culturing and the AOAC International-approved VIDAS methods to detect Salmonella in foods.

Prevalence and characterization of Salmonella enterica serovar Weltevreden from imported seafood.

During 2001-2005, 210 Salmonella enterica strains were isolated from seafood samples imported into US. Strains of S. enterica serovar Weltevreden were the most predominantly found among the 64 different serovars isolated. A total of 37 Salmonella Weltevreden isolates were characterized by pulsed-field gel electrophoresis (PFGE), plasmid profiles and antibiotic susceptibility to assess genetic diversity. Our results showed a low frequency of antibiotic resistance; 35 of the 37 isolates were sensitive to ampicillin, tetracycline, chloramphenicol, gentamicin, sulfisoxazole, streptomycin and kanamycin. Only two isolates, from samples originating in the Philippines and India, showed resistance to ampicillin and tetracycline and to streptomycin, sulfisoxazole and tetracycline, respectively. Of the 37 isolates, two isolates did not carry any plasmid and 35 isolates harbored several small and mega-plasmids. These isolates were differentiated into 10 distinct types based on plasmid profiles. Four different PFGE clusters were obtained with a genetic similarity of 66-76%. Four groups of isolates (formed by two or three isolates each) showed 100% similarity in the PFGE profiles. One of these groups included strains isolated in Vietnam in 2003, 2004 and 2005 from fish and shrimp. The other groups included strains isolated in Vietnam, Indonesia and Thailand in 2000, 2004 and 2005 from snail, shrimp and fish. Our findings show genetic diversity and temporal persistence of S. enterica serovar Weltevreden in recently monitored seafood imports.

Identification of Pseudomonas fluorescens Strains Isolated from Raw Pork and Chicken That Produce Siderophores Antagonistic towards Foodborne Pathogens.

Three strains of Pseudomonas fluorescens (strains 13, 43, and 52) isolated from ground pork or chicken meat exhibited broad-spectrum antimicrobial activity against both gram-positive ( Listeria monocytogenes and Staphylococcus aureus ) and gram-negative ( Salmonella enteritidis , Escherichia coli O157:H7, Yersinia enterocolitica , and Campylobacter jejuni ) foodborne pathogens, but not lactic acid bacteria ( Lactobacillus and Pediococcus ). Inhibition was not due to production of organic acids or other antimicrobials, but was related to the availability of iron, with the addition of ferric chloride to agar media reducing the inhibitory effect of all three Pseudomonas strains against indicator bacteria. All three Pseudomonas strains exhibited an orange zone on chrome azurol sulfonate agar plates, and crude culture supernatant fluids had a maximum absorbance at 400 nm. Collectively, these data strongly indicate the involvement of a siderophore(s) in the antimicrobial activity of P. fluorescens 13, 43, and 52.