Award details

Propionic acid use in agriculture and food production is driving evolution of novel Escherichia coli pathotypes

ReferenceBB/P003281/1
Principal Investigator / Supervisor Dr Daniel Wall
Co-Investigators /
Co-Supervisors
Institution University of Glasgow
DepartmentCollege of Medical, Veterinary, Life Sci
Funding typeResearch
Value (£) 381,149
StatusCompleted
TypeResearch Grant
Start date 01/10/2016
End date 30/09/2019
Duration36 months

Abstract

Propionic acid (PA) is a widely used anti-microbial short chain fatty acid (SCFA) reducing spoilage of food, agricultural and plant products. PA use has continually increased for over 40 years, predominantly in Western countries, and more recently as a means of addressing antimicrobial resistance (AMR) concerns. PA concentrations in the intestine mean it is regarded as non-toxic and few microbes maintain the capability of metabolising PA. Our recent data however raises serious concerns about the widespread use of PA as an agricultural feed and water and human food additive. We have found that opportunistic Escherichia coli termed adherent and invasive E. coli (AIEC) are dramatically altered when PA is provided as a sole carbon source. These bacteria, commonly found in sufferers of the chronic inflammatory condition Crohn's Disease (CD), were seen to increase in virulence when grown on PA, increasing their adherent and invasive phenotype and also forming increasingly structured biofilms with greater numbers of bacteria. PA, which is also known to increase the virulence of Mycobacteria was seen to induce similar outer membrane changes in AIEC where increased protein production was noted alongside altered lipopolysaccharide. Perhaps most significantly these changes in virulence and protein expression were permanent, remaining after removal of PA, with single nucleotide polymorphism (SNPs) identified in known virulence genes that promote adherence, the type 6-secretion system and stress resistance.

Summary

Emerging multidrug resistant strains of bacteria have forced both the agricultural and food production industries to rethink the use of antibiotics as a means of preventing both food spoilage and transmission of pathogens into the food chain. Alternative anti-microbial compounds are increasingly used such as short chain fatty acids (SCFA), commonly found in the colon but with anti-microbial properties. SCFA production and use has increased greatly in the past 40 years, particularly in the Western world, with the production of one such SCFA, propionic acid (PA), now worth approximately £1.2 billion per year and rising. PA efficacy and low cost allows farmers to treat grain and animal feed while reducing antibiotic use, resulting in PA being proposed as a solution in developing countries to antibiotic overuse. PA has proven highly successful in poultry production where through feed and water addition it has reduced carriage of Salmonella and Campylobacter, common causes of food borne sickness in the UK. PA has also proved highly popular as it is non-toxic to humans with few, if any, side effects. PA therefore can be added to foodstuffs including cakes, bread and preserves at up to 1% total weight of the food. The Western diet now contains increasing levels of food additives whose addition while prolonging the shelf life of food and reducing food borne disease, has also coincided with worrying increases in the prevalence of debilitating gut diseases. Inflammatory bowel diseases such as Crohn's Disease (CD) and ulcerative colitis (UC) while linked to underlying genetic conditions are exacerbated by dietary and other factors, such as bacteria in the intestine. A definitive explanation to link these genetic, dietary and microbial factors together has to date proved elusive. In this proposal we will show that PA is facilitating the transfer of pathogenic E. coli that are exposed to PA in poultry, to the PA rich environment of the human intestine. Adherent and invasiveE. coli (AIEC) are consistently isolated from the intestine of CD sufferers. These bacteria are unusual in that they lack toxins or other factors that would set them apart as pathogens. However unlike most other bacteria AIEC can grow and survive on the preservative PA which in time induces significant changes in the behaviour of AIEC. These PA induced changes include increased invasion of cells of the intestine, persistence within these cells and an ability to form structures called biofilms that enable the bacteria to resist antibiotics at higher concentrations and for longer. When this adaptation to PA in the lab is looked at from an agricultural perspective it can be seen that if AIEC were to encounter PA in the environment it would prepare or adapt them to the human intestine where levels of PA are high and restrictive for most pathogens, particular in the lower intestine or colon. However, AIEC establish infection throughout the human intestine, even in places where Salmonella and Campylobacter cannot. AIEC therefore appear well adapted to PA begging the question of how and where this adaptation occurred. Significantly AIEC are thought to be related to pathogens called avian pathogenic E. coli (APEC) that are found in birds such as chickens. These APECs are increasingly being recognized as causative agents of human disease with E. coli isolated from infections throughout the body, including the urinary tract and meningitis, bearing striking similarities to APECs. This proposal will seek to establish if high levels of PA use in the poultry industry and elsewhere is contributing to the evolution of pathogens that are now capable of causing disease in the human intestine. This proposal will for the first time show a definitive link between Crohn's Disease, the Western diet and AIEC, and identify propionic acid as being a facilitator in driving this relationship.

Impact Summary

This proposal would impact the following stakeholders as outlined below. Research community: Food security research: Food security concerns have led to dramatic changes in production of food, grains and animal feed. Antibiotic use has reduced significantly due to concerns over increasingly antibiotic resistant pathogens emerging across the world. Propionic acid (PA) is being used increasingly across the world, spreading more recently to developing countries where antibiotic overuse is still a considerable problem. This proposal is timely in that it highlights concerns about the role of PA in driving evolution of novel human adapted opportunistic pathogens, in this case adherent and invasive E. coli (AIEC). Many alternatives to PA are available and likely do not induce similar issues as regards pathogen selection. This proposal would impact food security research by highlighting a to-date unrecognized issue in the use of specific preservatives driving research to identify and ensure the safety of alternatives. Antimicrobial resistance research: Reducing worldwide antibiotic use is a primary concern presently and will remain so for many years to come. PA use in farming has helped greatly in this regard. However debilitating diseases such as Crohn's Disease (CD) are increasing as food processing changes and the role of PA and other organic acid preservatives must be addressed. It is essential to retain trust in the goal of reducing AMR, and to do so safe and economical alternatives must be offered to farmers. Acknowledging and addressing safety issues with preservatives is essential to finding alternatives. Those researching AMR including the pharmaceutical industry would benefit through increased knowledge of issues of AMR pertaining to preservatives, something not previously described. Crohn's Disease research and the medical community: The reason as to why AIEC and Mycobacterium avium paratuberculosis, as opposed to other bacterial species, are found in greaternumbers in CD sufferers is unknown. This proposal puts forward a unifying theory that links both pathogens; both are unique PA utilizing pathogens that trace their origins back to agricultural backgrounds as either avian or bovine pathogens. This finding would lead to new ways of examining CD as a disease, and potentially new ways of modulating the microbiome to help control the disease impacting the way the medical community treated CD. Outside of scientific research the following groups would be impacted by this research: The Department for Environment, Food and Rural Affairs (DEFRA) and the Food Standards Agency (FSA): Both would be impacted as both play significant roles in deciding policy as regards preservatives that are suitable for use in food in the UK. Previously they have moved to ban certain additives based on adverse effects. Farming industry/Agribusiness: The farming industry would not be significantly impacted as alternatives to PA are already available. Changes in farming practice to reduce PA use would be the most obvious impact. Agribusiness which relies heavily on compounds such as PA would be impacted as an alternative approach to agricultural produce being preserved would be needed. Public/consumers: This proposal would impact on public perceptions of food preservation by educating the public as to how their food is treated and preserved long term. For sufferers of CD and other inflammatory bowel conditions being aware of how their diet may exacerbate their condition would have a significant impact on their treatment. Pharmaceutical industry: PA production is worth over £1 billion per year worldwide and a number of companies within the UK produce the compound. However these companies are not limited to PA production for the most part, and any impact would most likely be limited to producing a safer alternative to PA. Alternatives are already manufactured in the UK for the agriculture industry.
Committee Research Committee B (Plants, microbes, food & sustainability)
Research TopicsMicrobial Food Safety, Microbiology
Research PriorityX – Research Priority information not available
Research Initiative X - not in an Initiative
Funding SchemeX – not Funded via a specific Funding Scheme
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