Bonanno Ludivine, Delubac Benjamin, Michel Valérie, Auvray Frédéric
Université Paris-Est, Anses, Laboratory for Food SafetyMaisons-Alfort, France; ACTALIA Produits Laitiers, Laboratoire de Microbiologie d'Intérêt LaitierLa Roche sur Foron, France.
ACTALIA Produits Laitiers, Laboratoire de Microbiologie d'Intérêt Laitier La Roche sur Foron, France.
Front Microbiol. 2017 Mar 3;8:296. doi: 10.3389/fmicb.2017.00296. eCollection 2017.
Shiga toxin-producing (STEC) are responsible for human infections, ranging from mild watery diarrhea to hemorrhagic colitis (CH) that may be complicated by hemolytic uremic syndrome (HUS). The main STEC virulence factor is Shiga toxin encoded by the gene, located in the genome of a bacteriophage integrated into the bacterial chromosome. The serotype O26:H11 is the second HUS-causing serotype worldwide (after O157:H7), and the first found in dairy products such as raw-milk cheeses. A small number of HUS cases identified each year in France are caused by serotype O26:H11. Stx phage induction is known to result in STEC lysis and release of new Stx phages particles. This phenomenon could negatively impact STEC screening in foods based on gene detection by PCR. Here, we evaluated the influence of physicochemical parameters related to cheese-making process on the induction rate of Stx phages from STEC O26:H11, including HO, NaCl, lactic acid and temperature. In addition, selective agents from the analytical STEC enrichment and detection procedure (XP CEN ISO/TS 13136) were tested, including novobiocin, acrifavin, cefixim-tellurite, and bile salts. An impact of HO and NaCl on Stx phage induction was observed. Production of Stx phages was also observed during a real cheese-making process. By contrast, no significant effect could be demonstrated for the chemical agents of the STEC detection procedure when tested separately, except for acriflavin and novobiocin which reduced Stx1 phage production in some cases. In conclusion, these results suggest that the cheese-making process might trigger the production of Stx phages, potentially interfering with the analysis of STEC in food.
产志贺毒素大肠杆菌(STEC)可导致人类感染,症状从轻症水样腹泻到出血性结肠炎(HC)不等,出血性结肠炎可能并发溶血尿毒综合征(HUS)。STEC的主要毒力因子是由位于整合到细菌染色体中的噬菌体基因组中的基因编码的志贺毒素。O26:H11血清型是全球第二大致HUS的血清型(仅次于O157:H7),也是在生乳奶酪等乳制品中首次发现的血清型。法国每年确诊的少数HUS病例由O26:H11血清型引起。已知Stx噬菌体诱导会导致STEC裂解并释放新的Stx噬菌体颗粒。这种现象可能会对基于PCR检测基因的食品中STEC筛查产生负面影响。在此,我们评估了与奶酪制作过程相关的物理化学参数对STEC O26:H11中Stx噬菌体诱导率的影响,包括过氧化氢(HO)、氯化钠(NaCl)、乳酸和温度。此外,还测试了STEC分析富集和检测程序(XP CEN ISO/TS 13136)中的选择性试剂,包括新生霉素、吖啶黄素、头孢克肟 - 亚碲酸盐和胆盐。观察到HO和NaCl对Stx噬菌体诱导有影响。在实际奶酪制作过程中也观察到了Stx噬菌体的产生。相比之下,单独测试时,STEC检测程序中的化学试剂除吖啶黄素和新生霉素在某些情况下会减少Stx1噬菌体产生外,未显示出显著影响。总之,这些结果表明奶酪制作过程可能会引发Stx噬菌体的产生,从而可能干扰食品中STEC的分析。
