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1.
Foodborne Pathog Dis ; 20(4): 158-168, 2023 04.
Article in English | MEDLINE | ID: mdl-37062811

ABSTRACT

Invasive listeriosis is a rare but serious foodborne disease that causes maternal-neonatal, central nervous system, and bloodstream infections. The aim of this study was to assess the whole-genome sequencing (WGS)-based genetic diversity of clinical Listeria monocytogenes isolates over a 7-year period and prove the effect of WGS application in food vehicle investigation. A total of 360 isolates were recovered during 2013 and 2019 through the national listeriosis special surveillance program. Two hundred twenty-six isolates (62.8%) were associated with pregnancy. All isolates belonged to lineage I (214 isolates) or lineage II (146 isolates), with 4 serogroups (46.9% IIb, 39.7% IIa, 12.5% IVb, and 0.8% IIc). All isolates were in 25 clonal complexes (CCs) and 3 singletons, with CC87, CC8, and CC5 being the most common causes of human listeriosis. All clinical isolates were positive for Listeria pathogenicity island 1 (LIPI-1), LIPI-3 was present in 21.4% of isolates and LIPI-4 was detected in 29.2% of isolates. LIPI-4-positive isolates, including CC87, sequence type (ST)619, ST382, CC4, and CC2, have been shown to confer hypervirulence. Fifteen isolates harbored at least one antimicrobial encoding gene, including tet (M), mef (A), msr (D), and dfr (G). The sublineage designations were consistent with CC designations, and 215 distinct cgMLST types (CTs) were classified, the most abundant being CT58 and CT750. In summary, there is a high level of genetic diversity among the clinical isolates. WGS has strengthened listeriosis surveillance and will be implemented for other foodborne bacteria in the National Molecular Tracing Network for Foodborne Disease.


Subject(s)
Foodborne Diseases , Listeria monocytogenes , Listeriosis , Infant, Newborn , Humans , Listeria monocytogenes/genetics , Food Microbiology , Listeriosis/epidemiology , Listeriosis/microbiology , Foodborne Diseases/epidemiology , Foodborne Diseases/microbiology , China/epidemiology
2.
J Clin Microbiol ; 54(8): 2162-8, 2016 08.
Article in English | MEDLINE | ID: mdl-27307455

ABSTRACT

Mass spectrometry-based phenotypic H-antigen typing (MS-H) combined with whole-genome-sequencing-based genetic identification of H antigens, O antigens, and toxins (WGS-HOT) was used to type 60 clinical Escherichia coli isolates, 43 of which were previously identified as nonmotile, H type undetermined, or O rough by serotyping or having shown discordant MS-H and serotyping results. Whole-genome sequencing confirmed that MS-H was able to provide more accurate data regarding H antigen expression than serotyping. Further, enhanced and more confident O antigen identification resulted from gene cluster based typing in combination with conventional typing based on the gene pair comprising wzx and wzy and that comprising wzm and wzt The O antigen was identified in 94.6% of the isolates when the two genetic O typing approaches (gene pair and gene cluster) were used in conjunction, in comparison to 78.6% when the gene pair database was used alone. In addition, 98.2% of the isolates showed the existence of genes for various toxins and/or virulence factors, among which verotoxins (Shiga toxin 1 and/or Shiga toxin 2) were 100% concordant with conventional PCR based testing results. With more applications of mass spectrometry and whole-genome sequencing in clinical microbiology laboratories, this combined phenotypic and genetic typing platform (MS-H plus WGS-HOT) should be ideal for pathogenic E. coli typing.


Subject(s)
Antigens, Bacterial/analysis , Bacterial Toxins/genetics , Bacterial Typing Techniques/methods , Escherichia coli/classification , Genotyping Techniques/methods , Mass Spectrometry/methods , O Antigens/genetics , Antigens, Bacterial/genetics , Escherichia coli/chemistry , Escherichia coli/genetics , Escherichia coli Infections/diagnosis , Humans
3.
Clin Chem ; 62(6): 839-47, 2016 Jun.
Article in English | MEDLINE | ID: mdl-27052506

ABSTRACT

BACKGROUND: Escherichia coli H antigen typing with antisera, a useful method for flagella clinical identification and classification, is a time-consuming process because of the need to induce flagella growth and the occurrence of undetermined strains. We developed an alternative rapid and analytically sensitive mass spectrometry (MS) method, termed MS-based H antigen typing (MS-H), and applied it at the protein sequence level for H antigen typing. We also performed a comparison with traditional serotyping on reference strains and clinical isolates. METHODS: On the basis of international guidelines, the analytical selectivity and sensitivity, imprecision, correlation, repeatability, and reproducibility of the MS-H platform was evaluated using reference strains. Comparison of MS-H typing and serotyping was performed using 302 clinical isolates from 5 Canadian provinces, and discrepant results between the 2 platforms were resolved through whole genome sequencing. RESULTS: Repeated tests on reference strain EDL933 demonstrated a lower limit of the measuring interval at the subsingle colony (16.97 µg or 1.465 × 10(7) cells) level and close correlation (r(2) > 0.99) between cell culture biomass and sequence coverage. The CV was <10.0% among multiple repeats with 4 reference strains. Intra- and interlaboratory tests demonstrated that the MS-H method was robust and reproducible under various sample preparation and instrumentation conditions. Using discrepancy analysis via whole genome sequencing, performed on isolates with discrepant results, MS-H accurately identified 12.3% more isolates than conventional serotyping. CONCLUSIONS: MS-H typing of E. coli is useful for fast and accurate flagella typing and could be very useful during E. coli outbreaks.


Subject(s)
Antigens, Bacterial/analysis , Antigens, Bacterial/chemistry , Escherichia coli/chemistry , Flagella/chemistry , Mass Spectrometry/methods , Serotyping/methods , Serotyping/standards , Antigens, Bacterial/immunology , Canada , Escherichia coli/immunology , Escherichia coli/isolation & purification , Flagella/immunology , Sensitivity and Specificity
4.
Proteomics Clin Appl ; 10(4): 346-57, 2016 Apr.
Article in English | MEDLINE | ID: mdl-26751976

ABSTRACT

Identification and typing of bacteria occupy a large fraction of time and work in clinical microbiology laboratories. With the certification of some MS platforms in recent years, more applications and tests of MS-based diagnosis methods for bacteria identification and typing have been created, not only on well-accepted MALDI-TOF-MS-based fingerprint matches, but also on solving the insufficiencies of MALDI-TOF-MS-based platforms and advancing the technology to areas such as targeted MS identification and typing of bacteria, bacterial toxin identification, antibiotics susceptibility/resistance tests, and MS-based diagnostic method development on unique bacteria such as Clostridium and Mycobacteria. This review summarizes the recent development in MS platforms and applications in bacteria identification and typing of common pathogenic bacteria.


Subject(s)
Bacterial Toxins/analysis , Bacterial Typing Techniques/methods , Peptide Fragments/analysis , Proteomics/methods , Bacterial Typing Techniques/instrumentation , Campylobacter jejuni/chemistry , Campylobacter jejuni/isolation & purification , Clostridium/chemistry , Clostridium/isolation & purification , Escherichia coli/chemistry , Escherichia coli/isolation & purification , Humans , Listeria monocytogenes/chemistry , Listeria monocytogenes/isolation & purification , Microbial Sensitivity Tests , Mycobacteriaceae/chemistry , Mycobacteriaceae/isolation & purification , Proteolysis , Proteomics/instrumentation , Salmonella/chemistry , Salmonella/isolation & purification , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization , Trypsin/chemistry
5.
J Clin Microbiol ; 53(8): 2480-5, 2015 Aug.
Article in English | MEDLINE | ID: mdl-26019207

ABSTRACT

Matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) has gained popularity in recent years for rapid bacterial identification, mostly at the genus or species level. In this study, a rapid method to identify the Escherichia coli flagellar antigen (H antigen) at the subspecies level was developed using a MALDI-TOF MS platform with high specificity and sensitivity. Flagella were trapped on a filter membrane, and on-filter trypsin digestion was performed. The tryptic digests of each flagellin then were collected and analyzed by MALDI-TOF MS through peptide mass fingerprinting. Sixty-one reference strains containing all 53 H types and 85 clinical strains were tested and compared to serotyping designations. Whole-genome sequencing was used to resolve conflicting results between the two methods. It was found that DHB (2,5-dihydroxybenzoic acid) worked better than CHCA (α-cyano-4-hydroxycinnamic acid) as the matrix for MALDI-TOF MS, with higher confidence during protein identification. After method optimization, reference strains representing all 53 E. coli H types were identified correctly by MALDI-TOF MS. A custom E. coli flagellar/H antigen database was crucial for clearly identifying the E. coli H antigens. Of 85 clinical isolates tested by MALDI-TOF MS-H, 75 identified MS-H types (88.2%) matched results obtained from traditional serotyping. Among 10 isolates where the results of MALDI-TOF MS-H and serotyping did not agree, 60% of H types characterized by whole-genome sequencing agreed with those identified by MALDI-TOF MS-H, compared to only 20% by serotyping. This MALDI-TOF MS-H platform can be used for rapid and cost-effective E. coli H antigen identification, especially during E. coli outbreaks.


Subject(s)
Antigens, Bacterial/analysis , Bacterial Typing Techniques/methods , Escherichia coli/chemistry , Escherichia coli/classification , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization/methods , Humans , Sensitivity and Specificity , Serotyping/methods , Time Factors
6.
Proteomics Clin Appl ; 8(11-12): 963-70, 2014 Dec.
Article in English | MEDLINE | ID: mdl-25244682

ABSTRACT

PURPOSE: The need for rapid and accurate H typing is evident during Escherichia coli outbreak situations. This study explores the transition of MS-H, a method originally developed for rapid H antigen typing of E. coli using LC-MS/MS of flagella digest of reference strains and some clinical strains, to E. coli isolates in clinical scenario through quantitative analysis and method validation. EXPERIMENTAL DESIGN: Motile and nonmotile strains were examined in batches to simulate clinical sample scenario. Various LC-MS/MS batch run procedures and MS-H typing rules were compared and summarized through quantitative analysis of MS-H data output for a standard method development. RESULTS: Label-free quantitative data analysis of MS-H typing was proven very useful for examining the quality of MS-H result and the effects of some sample carryovers from motile E. coli isolates. Based on this, a refined procedure and protein identification rule specific for clinical MS-H typing was established and validated. CONCLUSIONS AND CLINICAL RELEVANCE: With LC-MS/MS batch run procedure and database search parameter unique for E. coli MS-H typing, the standard procedure maintained high accuracy and specificity in clinical situations, and its potential to be used in a clinical setting was clearly established.


Subject(s)
Antigens, Bacterial/immunology , Chromatography, Liquid/methods , Escherichia coli/immunology , Tandem Mass Spectrometry/methods , Antigens, Bacterial/analysis , Bacterial Typing Techniques/methods , Escherichia coli/classification , Escherichia coli/physiology , Escherichia coli Infections/microbiology , Flagella/immunology , Flagella/metabolism , Flagella/physiology , Host-Pathogen Interactions , Humans , Proteomics/methods , Reproducibility of Results
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