The quality of marine bathing water is currently assessed by monitoring the
levels of faecal indicator bacteria. Among other drawbacks, results are
retrospective using the traditional culture based methods. A rapid method is
thus needed as an early warning to bathers for bacterial contamination in
marine bathing waters. Total lipopolysaccharide (LPS) was chosen here as a
potential general biomarker for bacterial contamination. Levels of total LPS,
measured using a Kinetic QCL™ Limulus Amebocyte Lysate (LAL) assay,
highly correlated with enumerated Escherichia coli and Bacteroides species.
Levels of LPS in excess of 50 EU mL-1 were found to equate with water that was
unsuitable for bathing under the current European Union regulations. Results
showed that monitoring the levels of total LPS has a potential applicability as a
rapid method for screening the quality of marine bathing water. More
importantly, the LAL assay overcome the retrospective results when using
culture based assessment since the LAL assay takes less than 30 minutes.
Although false positive events were not detected, the occurrence of a false
positive has been hypothesised, hence a more specific faecal biomarker was
also investigated. LPS of five Bacteroides species (B. fragilis, B. caccae, B.
ovatus, B. xylanisolvens and B. finegoldii) isolated from marine bathing waters
samples were successfully profiled and showed high similarity between isolates
in LPS gel electrophoresis banding pattern. Similar results were shown when
investigating the endotoxic activity of Bacteroides species with the Kinetic
QCL™ LAL assay. The potential biological relevance of Bacteroides LPS was
also investigated in cell culture models indicating that Bacteroides showed
similar induction of proinflammatory cytokines (TNF-α, IL-6 and IL-1α) and
generally the biological activity was approximately 100 fold less than E. coli LPS.
In addition, an ELISA assay was designed for the detection of Bacteroides LPS.
Results showed that the Bacteroides LPS has a high potential to be used as a
faecal biomarker, however, further work is required to develop a fully functional
assay. The potential biological relevance of LPS present in contaminated
bathing waters was also investigated in cell culture models. Results showed
that there is a significant difference in the production of proinflammatory
cytokines in comparison to “clean” bathing waters. Thus, results suggest that
the European Directive regulations should be extended to cover the levels of
total LPS in bathing waters to assure safety to the users of marine recreational
water.
Date of Award | 2014 |
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Original language | English |
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Awarding Institution | |
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Supervisor | K. Simon (Other Supervisor) |
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- Endotoxin
- Human health
- Lipopolysaccharide
- Rapid assay
- Bacteria
- Molecular Biology
- Bathing seawater
- cytokines
- Bacteroides
- Escherichia coli
- Enterococci
- Total coliform
- Cell Culture
- Monocyte
- Macrophage
- MPI
- MM6
- Biomedical sciences
Lipopolysaccharide in marine bathing water; a potential real-time biomarker of bacterial contamination and relevance to human health
Sattar, A. A. (Author). 2014
Student thesis: PhD