An interlaboratory study on efficient detection of Shiga toxin-producing Escherichia coli O26, O103, O111, O121, O145, and O157 in food using real-time PCR assay and chromogenic agar

Yukiko Hara-Kudo; Noriko Konishi; Kayoko Ohtsuka; Kaori Iwabuchi; Rie Kikuchi; Junko Isobe; Takumiko Yamazaki; Fumie Suzuki; Yuhki Nagai; Hiroko Yamada; Atsuko Tanouchi; Tetsuya Mori; Hiroshi Nakagawa; Yasufumi Ueda; Jun Terajima

doi:10.1016/j.ijfoodmicro.2016.03.031

An interlaboratory study on efficient detection of Shiga toxin-producing Escherichia coli O26, O103, O111, O121, O145, and O157 in food using real-time PCR assay and chromogenic agar

Int J Food Microbiol. 2016 Aug 2:230:81-8. doi: 10.1016/j.ijfoodmicro.2016.03.031. Epub 2016 Apr 13.

Authors

Yukiko Hara-Kudo¹, Noriko Konishi², Kayoko Ohtsuka³, Kaori Iwabuchi⁴, Rie Kikuchi⁵, Junko Isobe⁶, Takumiko Yamazaki⁷, Fumie Suzuki⁸, Yuhki Nagai⁹, Hiroko Yamada¹⁰, Atsuko Tanouchi¹¹, Tetsuya Mori¹², Hiroshi Nakagawa¹³, Yasufumi Ueda¹⁴, Jun Terajima¹⁵

Affiliations

¹ Division of Microbiology, National Institute of Health Sciences, 1-18-1 Kamiyoga, Setagaya, Tokyo 158-8501, Japan. Electronic address: ykudo@nihs.go.jp.
² Tokyo Metropolitan Institute of Public Health, 3-24-1, Hyakunin-cho, Shinjuku, Tokyo 169-0073, Japan.
³ Saitama Institute of Public Health, 410-1, Ewai, Yoshimi-machi, Hiki-gun, Saitama 355-0133, Japan.
⁴ Research Institute for Environmental Sciences and Public Health of Iwate Prefecture, 1-11-16, Kitaiioka, Morioka 020-0857, Japan.
⁵ Fukushima Institute for Public Health, 16-6, Mitouchi, Houkida, Fukushima 960-8560, Japan.
⁶ Toyama Institute of Health, 17-1, Nakataikouyama, Imizu 939-0363, Japan.
⁷ Suginami City Institute of the Public Health, 3-20-3, Takaidohigashi, Suginami, Tokyo 168-0072, Japan.
⁸ Shizuoka City Institute of Environmental Sciences and Public Health, 1-4-7, Oguro, Suruga, Shizuoka 422-8072, Japan.
⁹ Mie Prefecture Health and Environment Research Institute, 3684-11, Sakura-cho, Yokkaichi 512-1211, Japan.
¹⁰ Hiroshima Prefectural Technology Research Institute, Public Health and Environment Center, 1-6-29, Minami-machi, Minami, Hiroshima 734-0007, Japan.
¹¹ Hiroshima City Institute of Public Health, 4-1-2, Shoko-Center, Nishi, Hiroshima 733-8650, Japan.
¹² Institute for Food and Environment Sciences Tokyo Kenbikyo-in Foundation, 4F, 5-1, Toyomi-cho, Chuo, Tokyo 104-0055, Japan.
¹³ BML Food Science Solutions, Inc., 1491, Matoba, Kawagoe 350-1101, Japan.
¹⁴ Center of Inspection of Imported Foods and Infectious Diseases, Kobe Quarantine Station, 1-1, Toyahama-cho, Hyogo, Kobe 652-0866, Japan.
¹⁵ Division of Microbiology, National Institute of Health Sciences, 1-18-1 Kamiyoga, Setagaya, Tokyo 158-8501, Japan.

PMID: 27153219
DOI: 10.1016/j.ijfoodmicro.2016.03.031

Abstract

To establish an efficient detection method for Shiga toxin (Stx)-producing Escherichia coli (STEC) O26, O103, O111, O121, O145, and O157 in food, an interlaboratory study using all the serogroups of detection targets was firstly conducted. We employed a series of tests including enrichment, real-time PCR assays, and concentration by immunomagnetic separation, followed by plating onto selective agar media (IMS-plating methods). This study was particularly focused on the efficiencies of real-time PCR assays in detecting stx and O-antigen genes of the six serogroups and of IMS-plating methods onto selective agar media including chromogenic agar. Ground beef and radish sprouts samples were inoculated with the six STEC serogroups either at 4-6CFU/25g (low levels) or at 22-29CFU/25g (high levels). The sensitivity of stx detection in ground beef at both levels of inoculation with all six STEC serogroups was 100%. The sensitivity of stx detection was also 100% in radish sprouts at high levels of inoculation with all six STEC serogroups, and 66.7%-91.7% at low levels of inoculation. The sensitivity of detection of O-antigen genes was 100% in both ground beef and radish sprouts at high inoculation levels, while at low inoculation levels, it was 95.8%-100% in ground beef and 66.7%-91.7% in radish sprouts. The sensitivity of detection with IMS-plating was either the same or lower than those of the real-time PCR assays targeting stx and O-antigen genes. The relationship between the results of IMS-plating methods and Ct values of real-time PCR assays were firstly analyzed in detail. Ct values in most samples that tested negative in the IMS-plating method were higher than the maximum Ct values in samples that tested positive in the IMS-plating method. This study indicates that all six STEC serogroups in food contaminated with more than 29CFU/25g were detected by real-time PCR assays targeting stx and O-antigen genes and IMS-plating onto selective agar media. Therefore, screening of stx and O-antigen genes followed by isolation of STECs by IMS-plating methods may be an efficient method to detect the six STEC serogroups.

Keywords: Detection; Interlaboratory study; Method; Non-O157; O157; Shiga toxin-producing Escherichia coli.

MeSH terms

Animals
Cattle
Escherichia coli O157* / classification
Escherichia coli O157* / genetics
Escherichia coli O157* / isolation & purification
Food Contamination / analysis
Food Microbiology
Immunomagnetic Separation / methods
Meat / microbiology*
Molecular Typing / methods*
O Antigens / genetics*
Raphanus / microbiology*
Real-Time Polymerase Chain Reaction / methods*
Serogroup

Substances

O Antigens