Summary
The thymus plays an essential role in the establishment of adaptive immunity and central tolerance as it provides a nurturing environment for the differentiation of T cells, a process orchestrated by their interaction with multiple cell types. Despite advances in the knowledge of human thymus, how it functionally develops during foetal life remains elusive. This project aims at dissecting molecular mechanisms responsible for functional maturation of T cells by recapitulating human foetal development within a novel in vitro 3D system. Stromal and T cell compartments will be isolated and characterised at relevant developmental stages before and after mature T cells appear to underpin when thymic stroma acquires competence to sustain T cell development. Stromal populations from relevant developmental stages will be expanded in vitro to be cocultured with T progenitors within a unique 3D thymic natural matrix developed by the host lab. Repopulated 3D scaffold is sliced according to clinical grade protocols and cultured, allowing to set up multiple coculture conditions with the same stroma and compare the output on T cell maturation. In parallel, foetal thymic epithelial cells will be genetically modified to determine the role of specific transcription factors important for T cells onset during development. Recently developed microfluidic devices will provide an additional layer of information regarding molecular mechanisms regulating the crosstalk between stromal and immunological compartments. I anticipate to recapitulate human T cell development within a novel, whole human 3D in vitro culture system, to tackle fundamental immunological questions regarding human thymus development including maturation of tolerogenic T cells and regulation of central tolerance. Last, new key molecular and cellular players for T-cell specification will be uncovered opening new avenues for both congenital immune deficiencies based upon correction of the underlying molecular defect.
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| Web resources: | https://cordis.europa.eu/project/id/896014 |
| Start date: | 01-09-2021 |
| End date: | 05-01-2024 |
| Total budget - Public funding: | 224 933,76 Euro - 224 933,00 Euro |
Cordis data
Original description
The thymus plays an essential role in the establishment of adaptive immunity and central tolerance as it provides a nurturing environment for the differentiation of T cells, a process orchestrated by their interaction with multiple cell types. Despite advances in the knowledge of human thymus, how it functionally develops during foetal life remains elusive. This project aims at dissecting molecular mechanisms responsible for functional maturation of T cells by recapitulating human foetal development within a novel in vitro 3D system. Stromal and T cell compartments will be isolated and characterised at relevant developmental stages before and after mature T cells appear to underpin when thymic stroma acquires competence to sustain T cell development. Stromal populations from relevant developmental stages will be expanded in vitro to be cocultured with T progenitors within a unique 3D thymic natural matrix developed by the host lab. Repopulated 3D scaffold is sliced according to clinical grade protocols and cultured, allowing to set up multiple coculture conditions with the same stroma and compare the output on T cell maturation. In parallel, foetal thymic epithelial cells will be genetically modified to determine the role of specific transcription factors important for T cells onset during development. Recently developed microfluidic devices will provide an additional layer of information regarding molecular mechanisms regulating the crosstalk between stromal and immunological compartments. I anticipate to recapitulate human T cell development within a novel, whole human 3D in vitro culture system, to tackle fundamental immunological questions regarding human thymus development including maturation of tolerogenic T cells and regulation of central tolerance. Last, new key molecular and cellular players for T-cell specification will be uncovered opening new avenues for both congenital immune deficiencies based upon correction of the underlying molecular defect.Status
SIGNEDCall topic
MSCA-IF-2019Update Date
28-04-2024
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