Troy Stem Cells | Troy+ stomach stem cells in homeostasis, repair and pathogenesis

Summary
The adult mammalian stomach can be divided into three distinct parts: From the proximal fore-stomach over the corpus to the distal pylorus. Due to constant exposure to mechanical stress and to hostile contents of the lumen, highly specialized cell types have to be constantly reproduced in order to maintain the function of the gastrointestinal tract. Recently, the applicant identified Troy+ chief cells as a novel stem cell population in the corpus epithelium. Troy+ chief cells displayed a very low proliferation rate indicating their quiescent nature compared to other known gastro-intestinal tract stem cells. Interestingly, these stem cells can actively divide upon tissue damage, suggesting distinctive statuses under conditions of homeostasis and injury.

As Troy+ stomach stem cells exhibit interconvertible characteristics i.e. quiescent and proliferative, they represent a unique model of adult stem cells with which we can study 1) the dynamics of stem cell propagation in homeostasis and regeneration and the underlying mechanism of this switch by analysing molecular and epigenetic profiles. Subsequently, by analysing mRNA expression profiles and epigenetic changes in Troy+ stem cells between homeostasis and injury repair, we will generate a list of genes with potentially interesting functions in cell fate decisions. We will therefore investigate 2) the stomach stem cell programme in homeostasis and regeneration using in vitro and in vivo functional genetics. Lastly, we will characterise 3) human stomach stem cells in normal and pathological conditions.

Here we pursue three main aims:
- Investigating Troy+ stem cell dynamics during homeostasis and injury repair
- Unmasking the stomach stem cell programme using in vitro and in vivo functional genetics
- Characterising human stomach stem cells
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/639050
Start date: 01-08-2015
End date: 31-07-2020
Total budget - Public funding: 1 570 398,99 Euro - 1 570 398,00 Euro
Cordis data

Original description

The adult mammalian stomach can be divided into three distinct parts: From the proximal fore-stomach over the corpus to the distal pylorus. Due to constant exposure to mechanical stress and to hostile contents of the lumen, highly specialized cell types have to be constantly reproduced in order to maintain the function of the gastrointestinal tract. Recently, the applicant identified Troy+ chief cells as a novel stem cell population in the corpus epithelium. Troy+ chief cells displayed a very low proliferation rate indicating their quiescent nature compared to other known gastro-intestinal tract stem cells. Interestingly, these stem cells can actively divide upon tissue damage, suggesting distinctive statuses under conditions of homeostasis and injury.

As Troy+ stomach stem cells exhibit interconvertible characteristics i.e. quiescent and proliferative, they represent a unique model of adult stem cells with which we can study 1) the dynamics of stem cell propagation in homeostasis and regeneration and the underlying mechanism of this switch by analysing molecular and epigenetic profiles. Subsequently, by analysing mRNA expression profiles and epigenetic changes in Troy+ stem cells between homeostasis and injury repair, we will generate a list of genes with potentially interesting functions in cell fate decisions. We will therefore investigate 2) the stomach stem cell programme in homeostasis and regeneration using in vitro and in vivo functional genetics. Lastly, we will characterise 3) human stomach stem cells in normal and pathological conditions.

Here we pursue three main aims:
- Investigating Troy+ stem cell dynamics during homeostasis and injury repair
- Unmasking the stomach stem cell programme using in vitro and in vivo functional genetics
- Characterising human stomach stem cells

Status

CLOSED

Call topic

ERC-StG-2014

Update Date

27-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.1. EXCELLENT SCIENCE - European Research Council (ERC)
ERC-2014
ERC-2014-STG
ERC-StG-2014 ERC Starting Grant