Development, confirmation, and application of a seeded Escherichia coli process control organism to validate Salmonella enterica serovar Typhi environmental surveillance methods

PLoS One. 2024 May 7;19(5):e0301624. doi: 10.1371/journal.pone.0301624. eCollection 2024.

Abstract

Salmonella enterica serovar Typhi (S. Typhi) is the causative agent of Typhoid fever. Blood culture is the gold standard for clinical diagnosis, but this is often difficult to employ in resource limited settings. Environmental surveillance of waste-impacted waters is a promising supplement to clinical surveillance, however validating methods is challenging in regions where S. Typhi concentrations are low. To evaluate existing S. Typhi environmental surveillance methods, a novel process control organism (PCO) was created as a biosafe surrogate. Using a previous described qPCR assay, a modified PCR amplicon for the staG gene was cloned into E. coli. We developed a target region that was recognized by the Typhoid primers in addition to a non-coding internal probe sequence. A multiplex qPCR reaction was developed that differentiates between the typhoid and control targets, with no cross-reactivity or inhibition of the two probes. The PCO was shown to mimic S. Typhi in lab-based experiments with concentration methods using primary wastewater: filter cartridge, recirculating Moore swabs, membrane filtration, and differential centrifugation. Across all methods, the PCO seeded at 10 CFU/mL and 100 CFU/mL was detected in 100% of replicates. The PCO is detected at similar quantification cycle (Cq) values across all methods at 10 CFU/mL (Average = 32.4, STDEV = 1.62). The PCO was also seeded into wastewater at collection sites in Vellore (India) and Blantyre (Malawi) where S. Typhi is endemic. All methods tested in both countries were positive for the seeded PCO. The PCO is an effective way to validate performance of environmental surveillance methods targeting S. Typhi in surface water.

Publication types

  • Research Support, Non-U.S. Gov't
  • Validation Study

MeSH terms

  • Environmental Monitoring* / methods
  • Escherichia coli* / genetics
  • Escherichia coli* / isolation & purification
  • Humans
  • Salmonella typhi* / genetics
  • Salmonella typhi* / isolation & purification
  • Typhoid Fever / diagnosis
  • Typhoid Fever / epidemiology
  • Typhoid Fever / microbiology
  • Typhoid Fever / prevention & control
  • Wastewater / microbiology
  • Water Microbiology

Substances

  • Wastewater

Grants and funding

JSM was supported by the award GAT.556155-01659056-SUB From PATH (https://www.path.org). DSB was supported by the award INV-000508 from the Bill & Melinda Gates Foundation (https://www.gatesfoundation.org). The Bill & Melinda Gates Foundation had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Research reported in this publication was supported by the National Institute of Environmental Health Sciences of the National Institutes of Health under award number T32ES015459 (SEP and NAZ; https://deohs.washington.edu/bebteh/about). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.