Evaluation of the Humoral Response after Immunization with a Chimeric Subunit Vaccine against Shiga Toxin-Producing Escherichia coli in Pregnant Sows and Their Offspring.

Shiga toxin-producing Escherichia coli (STEC) poses a significant public health risk due to its zoonotic potential and association with severe human diseases, such as hemorrhagic colitis and hemolytic uremic syndrome. Ruminants are recognized as primary reservoirs for STEC, but swine also contribute to the epidemiology of this pathogen, highlighting the need for effective prevention strategies across species. Notably, a subgroup of STEC that produces Shiga toxin type 2e (Stx2e) causes edema disease (ED) in newborn piglets, economically affecting pig production. This study evaluates the immunogenicity of a chimeric protein-based vaccine candidate against STEC in pregnant sows and the subsequent transfer of immunity to their offspring. This vaccine candidate, which includes chimeric proteins displaying selected epitopes from the proteins Cah, OmpT, and Hes, was previously proven to be immunogenic in pregnant cows. Our analysis revealed a broad diversity of STEC serotypes within swine populations, with the cah and ompT genes being prevalent, validating them as suitable antigens for vaccine development. Although the hes gene was detected less frequently, the presence of at least one of these three genes in a significant proportion of STEC suggests the potential of this vaccine to target a wide range of strains. The vaccination of pregnant sows led to an increase in specific IgG and IgA antibodies against the chimeric proteins, indicating successful immunization. Additionally, our results demonstrated the effective passive transfer of maternal antibodies to piglets, providing them with immediate, albeit temporary, humoral immunity against STEC. These humoral responses demonstrate the immunogenicity of the vaccine candidate and are preliminary indicators of its potential efficacy. However, further research is needed to conclusively evaluate its impact on STEC colonization and shedding. This study highlights the potential of maternal vaccination to protect piglets from ED and contributes to the development of vaccination strategies to reduce the prevalence of STEC in various animal reservoirs.

Potential Zoonotic Pathovars of Diarrheagenic Escherichia coli Detected in Lambs for Human Consumption from Tierra del Fuego, Argentina.

Diarrheagenic Escherichia coli (DEC) pathovars impact childhood health. The southern region of Argentina shows the highest incidence of hemolytic uremic syndrome (HUS) in children of the country. The big island of Tierra del Fuego (TDF) in Argentina registered an incidence of five cases/100,000 inhabitants of HUS in 2019. This work aimed to establish the prevalence of STEC, EPEC, and EAEC in lambs slaughtered in abattoirs from TDF as well as to characterize the phenotypes and the genotypes of the isolated pathogens. The prevalence was 26.6% for stx+, 5.7% for eae+, and 0.27% for aagR+/aaiC+. Twelve STEC isolates were obtained and belonged to the following serotypes: O70:HNT, O81:H21, O81:HNT, O102:H6, O128ab:H2, O174:H8, and O174:HNT. Their genotypic profiles were stx1c (2), stx1c/ehxA (3), stx2b/ehxA (1), stx1c/stx2b (2), and stx1c/stx2/ehxA (4). Six EPEC isolates were obtained and corresponded to five serotypes: O2:H40, O32:H8, O56:H6, O108:H21, and O177:H25. All the EPEC isolates were bfpA- and two were ehxA+. By XbaI-PFGE of 17 isolates, two clusters were identified. By antimicrobial susceptibility tests, 8/12 STEC and 5/6 EPEC were resistant to at least one antibiotic. This work provides new data to understand the ecology of DEC in TDF and confirms that ovine are an important carrier of these pathogens in the region.

Detection and Characterization of Enteropathogenic and Shiga Toxin-Producing Escherichia coli Strains in Rattus spp. from Buenos Aires.

Enteropathogenic Escherichia coli (EPEC) and Shiga toxin-producing E. coli (STEC) are pathovars of E. coli that impact human health by causing childhood diseases. In this work, 118 synanthropic rodents of the genus Rattus from Buenos Aires, Argentina were evaluated as EPEC and STEC carriers. Rectal swab samples from captured animals were evaluated by conventional PCR to detect the presence of the eae, stx1, stx2, and rfbO157 genes. Twenty-one isolates were obtained (17 EPEC isolates from seven animals and four STEC isolates from the same animal). All EPEC isolates tested negative for the presence of the bfpA gene. One EPEC isolate carried the iha gene, and five EPEC isolates carried the toxB gene. STEC isolates exhibited two different virulence profiles: stx1a/stx2a/stx2c/stx2d/saa/ehxA/subA (3/4) and stx1a/stx2a/saa/ehxA/subA (1/4). EPEC isolate serotypes included O109:H46 (7), O71:H40 (4), O71:NM (2), O138:H40 (1), O108:H21 (1), O88:H25 (1), and O76:NM (1), and STEC isolates belonged to the O108:H11 (4) serotype. Antimicrobial susceptibility testing was carried out, and resistance to tetracycline was observed in one EPEC strain. Our results demonstrate that Rattus spp. may act as carriers of EPEC and STEC strains and may be involved in the epidemiology of diarrheal disease in infancy.

Synanthropic rodents as possible reservoirs of shigatoxigenic Escherichia coli strains.

Shigatoxigenic Escherichia coli (STEC) strains are worldwide zoonotic pathogen responsible for different cases of human disease including hemolytic uremic syndrome (HUS). Transmission of STEC to humans occurs through the consumption of food and water contaminated by faeces of carriers and by person-to-person contact. The objective of this study was two-fold: (1) to investigate whether synanthropic rodents are possible reservoirs of STEC in the urban area and (2) whether a particular genus out of synanthropic rodent is the principal carrier of STEC. One hundred and forty-five rodents were captured in Buenos Aires City. Screening for stx1/stx2 and rfbO157 was done by PCR from the confluence zone. STEC isolates were further characterized with biochemical tests by standard methods. Additional virulence factors (eae, ehxA, and saa) were also determined by PCR. Forty-one of the rodents were necropsied and sample of kidney and small and large intestine were taken for histopathological diagnosis. The samples sections were stained with hematoxylin-eosin, and observed by light microscopy to evaluate the systemic involvement of these species in natural infections. STEC was isolated from seven out of 27 suspect animals at screening. The following genotypes were found in the STEC strains: stx1/stx2/ehxA (1), stx2 (4), stx2/ehxA (1), stx2/ehxA/eae (1). Neither gross nor microscopic lesions compatible with those produced by Shiga toxin were observed in the studied organs of necropsied rodents. The bivariate analysis including the 145 rodent's data showed that the isolation of STEC is associated positively to Rattus genus. This synanthropic species may play a role in the transmissibility of the agent thus being a risk to the susceptible population. Their control should be included specifically in actions to dismiss the contamination of food and water by STEC in the urban area, as additional strategies for epidemiological control.

Escherichia coli shigatoxigénica en animales relacionados con casos de diarreas sanguinolentas o síndrome urémico hemolítico y prevalencia en roedores de la Ciudad de Buenos Aires / Shiga toxin-producing escherichia coli in animals related to cases of bloody diarrhea

Escherichia coli shigatoxigénica (STEC) es un patógeno endémico en Argentina, responsable de diarrea aguda sanguinolenta (DAS) y/o síndrome urémico hemolítico (SUH). La correlación entre SUH y alimentos contaminados ha sido documentada, aunque no siempre se estableció la fuente de infección. La ruta de contagio persona-persona es relevante. Dados los registros previos de prevalencia de STEC en animales de compañía y los hábitos de convivencia humano-animal en centros urbanos, es necesario evaluar la ruta mascota-persona. A su vez, los roedores podrían tener un papel epidemiológico en la endemia. OBJETIVO: Estudiar posibles reservorios animales relacionados con casos de SUH/DAS en la Ciudad Autónoma de Buenos Aires y estimar la prevalencia de STEC en roedores. MÉ-TODOS: Se intervino en 28 casos de SUH y 49 de DAS. Se realizó rastrillaje de cepas STEC por PCR a partir de hisopados rectales de los animales vinculados a cada caso. La prevalencia en roedores se estimó por PCR de sus hisopados rectales. RESULTADOS: Se aislaron cepas STEC en 1/10 caninos y 1/3 felinos con vivientes con casos de SUH, y 1/9 felinos contacto con casos de DAS. Rattus rattus fue hospedero de cepas STEC en 33% de los animales capturados en focos de SUH. En roedores, la prevalencia fue de 3,1%. CONCLUSIONES: Las cepas STEC circulan en los animales que conviven o tienen al menos un hábitat compartido con la población en riesgo, quienes podrían participar en la transmisión del agente. Es necesario reevaluar las intervenciones sanitarias en focos y en programas de control de SUH/DAS

Shigatoxigenic Escherichia coli(STEC) is an endemic pathogen in Argentina, which causes bloody diarrhea (BD) and/or hemolytic uremic syndrome (HUS).The co-relation between HUS and contaminated food has been documented, although the source of infection was not always established. Person-to-person route of infection is relevant. Taking into account previous STEC prevalence data in companion animals and the habits of human-animal coexistence in urban centers, it is necessary to evaluate pet-to-person transmission. On the other hand, rodents may also play an epidemiologic role in the endemic transmission. OBJECTIVE: To study potential animal reservoirs related to HUS and BD cases in the City of Buenos Aires and to estimate the prevalence of STEC in rodents. METHODS: An intervention was conducted in 28 cases of HUS and 49 of BD. Screening for STEC was performed by PCR from rectal swabs of linked animals to each case. The prevalence in rodents was estimated by PCR from rectal swabs. RESULTS: STEC strains were isolated in 1/10 dogs and 1/3 cats cohabiting with HUS cases, and in 1/9 cats in contact with DAS cases. Rattus rattus was host of STEC strains in 33% of the animals captured in HUS areas. In rodents, the prevalence was 3.1%. CONCLUSIONS: STEC strains circulate in animals that live withor share at least the same habitat with the population at risk, and could participate in the transmission of the agent. It is necessary to re-evaluate health interventions both in outbreaks and in control programs of HUS/BD