This study investigates the clinical relevance of the gut microbiome at taxonomic and metabolic levels in anti-CD19 CAR-T cell therapy, both in patients and in a preclinical syngeneic tumor model. B cell lymphoma patients treated with CD19-CAR-T cells exhibited profound intestinal dysbiosis, exacerbated after CAR-T infusion. This dysbiosis was characterized by low bacterial richness, low sMAdCAM-1 and loss of Akkermansia species, associated with resistance to therapy. Mechanistically, oral Akkermansia massiliensis supplementation increased CAR-T cell infiltration into bone marrow, inverted the CD4/CD8 CAR-T ratio, favored Tc1 CD8+ T cell polarization and promoted release of tryptophan-derived indole metabolites, leading to better tumor control. The clinical benefit of Akkermansia spp. supplementation was abolished when CAR-T cells were genetically deficient for the indole receptor, aryl hydrocarbon receptor (Ahr). Ahr-agonistic indoles alone failed to replicate the bacterium's anticancer effects. These findings suggest Akkermansia supplementation could improve CAR-T cell potency in patients with intestinal Akkermansia deficiency.
Gut microbiota modulation through Akkermansia spp. supplementation increases CAR-T cell potency / L. Marcos-Kovandzic, M. Avagliano, M. Ben Khelil, J. Srikanthan, R. Abdallah, V. Petrocelli, J. Rengassamy, A. Alfaro, M. Bied, M. Fidelle, G. Ferrere, R. Daillere, A. Arbab, R. Amine-Hneineh, A. Pages, P. Dartigues, P. Ly, S. Simon, S. Durand, A. Gottschlich, F. Ginhoux, C. Bleriot, P. Liu, L. Zhao, L. Creusot, N. Rolhion, G. Kroemer, L. Menger, S. Kobold, C. Castilla-Llorente, H. Sokol, S. Casola, E. Pasolli, L. Zitvogel, C. Bigenwald. - In: CANCER DISCOVERY. - ISSN 2159-8290. - (2025 Jun 11). [Epub ahead of print] [10.1158/2159-8290.CD-24-1230]
Gut microbiota modulation through Akkermansia spp. supplementation increases CAR-T cell potency
S. Casola;
2025
Abstract
This study investigates the clinical relevance of the gut microbiome at taxonomic and metabolic levels in anti-CD19 CAR-T cell therapy, both in patients and in a preclinical syngeneic tumor model. B cell lymphoma patients treated with CD19-CAR-T cells exhibited profound intestinal dysbiosis, exacerbated after CAR-T infusion. This dysbiosis was characterized by low bacterial richness, low sMAdCAM-1 and loss of Akkermansia species, associated with resistance to therapy. Mechanistically, oral Akkermansia massiliensis supplementation increased CAR-T cell infiltration into bone marrow, inverted the CD4/CD8 CAR-T ratio, favored Tc1 CD8+ T cell polarization and promoted release of tryptophan-derived indole metabolites, leading to better tumor control. The clinical benefit of Akkermansia spp. supplementation was abolished when CAR-T cells were genetically deficient for the indole receptor, aryl hydrocarbon receptor (Ahr). Ahr-agonistic indoles alone failed to replicate the bacterium's anticancer effects. These findings suggest Akkermansia supplementation could improve CAR-T cell potency in patients with intestinal Akkermansia deficiency.
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