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Characterising the molecular and cellular basis of enteric nervous system alterations in the inflamed gut

Project description

Gut nervous system changes in inflammatory conditions

The enteric nervous system (ENS) is a complex network of neurons in the walls of the gastrointestinal tract, often referred to as the ‘second brain’. Changes in the ENS have been associated with inflammatory bowel diseases (IBD) but the precise mechanisms remain elusive. Funded by the Marie Skłodowska-Curie Actions programme, the NeurogENSity project aims to investigate the specification of neuronal identity in the ENS during inflammation. Researchers will employ an ulcerative colitis model and investigate molecular events in the inflamed ENS as well as ENS-immune interactions responsible for neurogenic changes. The work has the potential to lead to targeted treatments for ENS dysfunction in IBD.

Objective

Inflammatory Bowel Disease (IBD) encompasses two gastrointestinal conditions - Crohn’s disease and ulcerative colitis - which currently lack satisfactory treatment. IBD is associated with alterations to the enteric nervous system (ENS) of the gut, including the formation of new neurons (‘neurogenesis’) and changes in the properties of existing neurons (‘neuroplasticity’). Growing evidence suggests an interplay between acute inflammation and ENS pathology. Despite this, detailed characterisation of ENS alterations, their underlying molecular mechanisms, and how inflammation may induce them during IBD, is not well understood.
The Marklund laboratory has recently uncovered a stepwise diversification model of enteric neurogenesis, suggesting that during embryonic development, subtype identities are specified through identity conversions in post-mitotic neurons. This work leads to the intriguing possibility that the identity of terminally-differentiated enteric neurons may, in fact, be flexible. However, whether stepwise diversification is present during adult inflammation-induced neurogenesis, and whether neuronal identity can be altered by extrinsic stimuli such as inflammation, remains to be assessed. Using a colitis model of IBD, single cell RNA sequencing of ENS and immune cells and spatial transcriptomics, NeurogENSity will characterise the composition of the inflamed ENS, revealing the cellular changes occurring as a result of acute inflammation. Pseudotime trajectory analysis, in combination with lineage tracing experiments, will address the nature of adult enteric neuronal identity specification. ENS-immune interactions which may underlie neurogenic and neuroplastic alterations will be identified, and their relevance assessed using cell depletion assays. Together, NeurogENSity will identify mechanisms underlying inflammation-induced alterations to the ENS, paving the way for targeted treatments of ENS dysfunction during IBD.

Coordinator

KAROLINSKA INSTITUTET
Net EU contribution
€ 206 887,68
Address
Nobels Vag 5
17177 Stockholm
Sweden

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Region
Östra Sverige Stockholm Stockholms län
Activity type
Higher or Secondary Education Establishments
Links
Total cost
No data