Summary
Resistance of cancers to immune checkpoint blockade (ICB) can result from a deviated taxonomic composition of the intestinal microbiota. A surge in the Enterocloster genus, for instance following discontinuation of antibiotics or chronic inflammation caused by tumors, induces the downregulation of MAdCAM-1 in the ileal lamina propria and mesenteric lymph nodes through perturbations of biliary salts. In turn, the ileal MAdCAM-1 loss induces the exodus of immunosuppressive T lymphocytes expressing the MAdCAM-1 receptor α4β7, i.e., FoxP3+ RAR-related orphan receptor gamma t (RORγt+) regulatory (Tr17) cells, from the gut to distant tumors. Disruption of the MAdCAM-1–α4β7 axis compromises the efficacy of immunotherapy and reprograms the tumor microenvironment towards a regulatory phenotype. Moreover, serum soluble MAdCAM-1 is a proxy of intestinal dysbiosis and a robust predictor of survival in cancer patients treated with ICB. To decipher the biological significance of these findings, we will first investigate the transcriptional and post-translational mechanisms regulating MAdCAM-1 expression and function (Task 1), in particular neuroendocrine and metabolic cues. Next, a comprehensive phenotyping of the emigrating enterotropic T cells reaching the tumor by single cell transcriptomics and genomics, as well as specific genetic and immunopharmacological intervention on T lymphocytes and cancer cells will lead to the identification of the molecular mechanisms regulating the gut-tumor axis (Task 2). We will investigate how enterotropic T cells homing to cancers maintain their proliferative and suppressive capacities, in particular in the light of the recognition of tumor and/or commensal antigens (Task 3). Altogether, this approach will lay the molecular and metabolic foundations governing the MAdCAM-1–α4β7 gut immune checkpoint
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| Web resources: | https://cordis.europa.eu/project/id/101142062 |
| Start date: | 01-10-2024 |
| End date: | 30-09-2029 |
| Total budget - Public funding: | 2 487 834,00 Euro - 2 487 834,00 Euro |
Cordis data
Original description
Resistance of cancers to immune checkpoint blockade (ICB) can result from a deviated taxonomic composition of the intestinal microbiota. A surge in the Enterocloster genus, for instance following discontinuation of antibiotics or chronic inflammation caused by tumors, induces the downregulation of MAdCAM-1 in the ileal lamina propria and mesenteric lymph nodes through perturbations of biliary salts. In turn, the ileal MAdCAM-1 loss induces the exodus of immunosuppressive T lymphocytes expressing the MAdCAM-1 receptor α4β7, i.e., FoxP3+ RAR-related orphan receptor gamma t (RORγt+) regulatory (Tr17) cells, from the gut to distant tumors. Disruption of the MAdCAM-1–α4β7 axis compromises the efficacy of immunotherapy and reprograms the tumor microenvironment towards a regulatory phenotype. Moreover, serum soluble MAdCAM-1 is a proxy of intestinal dysbiosis and a robust predictor of survival in cancer patients treated with ICB. To decipher the biological significance of these findings, we will first investigate the transcriptional and post-translational mechanisms regulating MAdCAM-1 expression and function (Task 1), in particular neuroendocrine and metabolic cues. Next, a comprehensive phenotyping of the emigrating enterotropic T cells reaching the tumor by single cell transcriptomics and genomics, as well as specific genetic and immunopharmacological intervention on T lymphocytes and cancer cells will lead to the identification of the molecular mechanisms regulating the gut-tumor axis (Task 2). We will investigate how enterotropic T cells homing to cancers maintain their proliferative and suppressive capacities, in particular in the light of the recognition of tumor and/or commensal antigens (Task 3). Altogether, this approach will lay the molecular and metabolic foundations governing the MAdCAM-1–α4β7 gut immune checkpointStatus
SIGNEDCall topic
ERC-2023-ADGUpdate Date
26-11-2024
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