EASTBIO: The impact of soft-fruit phytochemicals on the gut microbiome and bile acid signalling at Aberdeen University on FindAPhD.com

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Dr A Kolb, Dr G McDougall, Prof Karen Scott, Dr Claus-Dieter Mayer No more applications being accepted Competition Funded PhD Project (Students Worldwide)

Aberdeen United Kingdom Biochemistry Microbiology Molecular Biology Nutrition Food Sciences Physiology Zoology

About the Project

This fully funded, 4-year PhD project is part of a competition funded by the BBSRC EASTBIO Doctoral Training Partnership.

Bile acid metabolism is a critical component of the digestion process. Bile acids emulsify dietary lipids to prepare them for enzymatic digestion into glycerol and fatty acids and subsequent absorption into the gut epithelium. Intestinal bile acid concentrations are under a feedback loop control of the enterohepatic cycle. This is possible because bile acids also act as signalling molecules throughout the gut. An increase in bile acids, and hence bile acid signalling, leads to an increase in FGF15/19 expression and secretion, which in turn reduces expression of the key bile acid synthesis gene Cyp7A1.

Disturbance of bile acid synthesis by either overexpressing or inactivating the key enzyme Cyp7A1 in transgenic animals dramatically reduces nutrient uptake and generates resistance to obesity but has significant side-effects. However smaller modulations of bile acid activity can have beneficial effects on metabolic health. Bile acids are synthesized in the liver, stored in the gallbladder and released in response to food intake. As part of the synthesis process bile acids are conjugated to amino acids to increase their solubility. Microbial enzymes modulate the composition of the bile acid pool, e.g., through bile salt hydrolase which removes the amino acid moiety, altering the biological signalling effects of bile acids.

We have recently shown that blueberry extracts have a strong anti-obesogenic effect in mice. This is associated with a dramatic shift in both, intestinal bile acid and microbiome composition. At present we do not know whether the two effects are dependent on each other, and if so which one of the changes is causal. We have also shown changes in bile acid composition in response to soft-fruit supplementation in human intervention trials suggesting that the health benefits seen in rodents can be translated into the human situation.

Proposed project

The proposed project seeks to assess the interaction of soft fruit phytochemicals with the gut microbiota and bile acid metabolism using a combination of experiments in animal model systems, in vitro models of microbial digestion, and human intervention trials.

[1] We have collected 16S sequencing data of the gut microbiome in a mouse model system. The data derived from this study will be analysed using suitable bioinformatic tools. The dataset will be compared with other available datasets from mouse and human studies.

[2] We will directly test the effects of plant secondary metabolites on the composition and relevant enzymatic activities of synthetic microbiomes relevant to the human gut in anaerobic microbiological fermentors.

[3] The effect of different microbes and microbiomes on bile acid composition will be studied using mass spectrometry, HPLC and cell based assays.

[4] Expression of genes responsive to signalling by different bile acids will be analysed in liver and gut cell lines, and rodent tissue samples. These data will assess the consequences of bile acid composition on signalling pathways relevant to metabolic health.

The project will provide the student with interdisciplinary training in the areas of microbiology (Dr Karen Scott), natural product chemistry (Dr Gordon McDougall), bioinformatics (Dr Claus Mayer) and molecular cell biology (Dr Andreas Kolb).

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ELIGIBILITY:

Applicants should hold a minimum of a 2:1 UK Honours degree (or international equivalent) in a relevant subject. Those with a 2:2 UK Honours degree (or international equivalent) may be considered, provided they have (or are expected to achieve) a Distinction or Commendation at master’s level.
All students must meet the eligibility criteria as outlined in the UKRI guidance on UK, EU and international candidates. This guidance should be read in conjunction with the UKRI Training Grant Terms and Conditions, esp. TGC 5.2 & Annex B.

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APPLICATION PROCEUDRE:

Please visit this page for full application information: How to apply | eastbio (eastscotbiodtp.ac.uk)
Please send your completed EASTBIO application form, along with academic transcripts to Alison Innes at: [Email Address Removed]
Two references should be provided by the deadline using the EASTBIO reference form. References should be sent to [Email Address Removed]
Unfortunately, due to workload constraints, we cannot consider incomplete applications.
CV's submitted directly through a FindAPhD enquiry WILL NOT be considered.

Funding Notes

This fully funded, 4-year PhD project is part of a competition funded by the EASTBIO BBSRC Doctoral Training Partnership.
This opportunity is open to UK and International students (The proportion of international students appointed through the EASTBIO DTP is capped at 30% by UKRI BBSRC).
EASTBIO studentships includes a UKRI doctoral stipend (estimated at £17,668 for the 2023/2024 academic year), plus a training grant of £5,000 per annum (year 1-3; £1,500 year 4) and a travel/conference grant of £230 per annum.
EASTBIO does not provide funding to cover visa and associated healthcare surcharges for international students.

References

1. Li, T., Chiang, J.Y.L., 2015. Bile acids as metabolic regulators. Curr. Opin. Gastroenterol. 31, 159–65. doi:10.1097/MOG.0000000000000156
2. McDougall, G.J., Allwood, J.W., Pereira-Caro, G., Brown, E.M., Ternan, N., Verrall, S., Stewart, D., Lawther, R., O’Connor, G., Rowland, I., Crozier, A., Gill, C.I.R., 2016. Nontargeted LC-MS n Profiling of Compounds in Ileal Fluids That Decrease after Raspberry Intake Identifies Consistent Alterations in Bile Acid Composition. J. Nat. Prod. 79, 2606–2615. doi:10.1021/acs.jnatprod.6b00532
3. Wahlström, A., Sayin, S.I., Marschall, H.-U., Bäckhed, F., 2016. Intestinal Crosstalk between Bile Acids and Microbiota and Its Impact on Host Metabolism. Cell Metab. 24, 41–50. doi:10.1016/J.CMET.2016.05.005