Gut Microbiota Modulation through Akkermansia spp. Supplementation Increases CAR T-cell Potency

Laura Marcos-Kovandzic; Michele Avagliano; Myriam Ben Khelil; Janesa Srikanthan; Rim Abdallah; Valentina Petrocelli; Jessica Rengassamy; Alexia Alfaro; Mathilde Bied; Marine Fidelle; Gladys Ferrere; Romain Daillère; Ahmadreza Arbab; Roula Amine-Hneineh; Arnaud Pages; Peggy Dartigues; Pierre Ly; Sylvain Simon; Sylvère Durand; Adrian Gottschlich; Florent Ginhoux; Camille Blériot; Peng Liu; Liwei Zhao; Laura Creusot; Nathalie Rolhion; Lisa Derosa; Guido Kroemer; Laurie Menger; Sebastian Kobold; Cristina Castilla-Llorente; Harry Sokol; Stefano Casola; Edoardo Pasolli; Laurence Zitvogel; Camille Bigenwald

doi:10.1158/2159-8290.CD-24-1230

Gut Microbiota Modulation through Akkermansia spp. Supplementation Increases CAR T-cell Potency

Laura Marcos-Kovandzic
, Michele Avagliano
, Myriam Ben Khelil
, Janesa Srikanthan
, Rim Abdallah
, Valentina Petrocelli
, Jessica Rengassamy
, Alexia Alfaro
, Mathilde Bied
, Marine Fidelle
, Gladys Ferrere
, Romain Daillère
, Ahmadreza Arbab
, Roula Amine-Hneineh
, Arnaud Pages
, Peggy Dartigues
, Pierre Ly
, Sylvain Simon
, Sylvère Durand
, Adrian Gottschlich

Florent Ginhoux, Camille Blériot, Peng Liu, Liwei Zhao, Laura Creusot, Nathalie Rolhion, Lisa Derosa, Guido Kroemer, Laurie Menger, Sebastian Kobold, Cristina Castilla-Llorente, Harry Sokol, Stefano Casola, Edoardo Pasolli, Laurence Zitvogel, Camille Bigenwald

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

This study investigates the clinical relevance of the gut microbiome at taxonomic and metabolic levels in anti-CD19 chimeric antigen receptor (CAR) T-cell therapy, both in patients and in a preclinical syngeneic tumor model. Patients with B-cell lymphoma treated with CD19 CAR T cells exhibited profound intestinal dysbiosis, exacerbated after CAR T-cell infusion. This dysbiosis was characterized by low bacterial richness, low soluble MAdCAM-1, and loss of Akkermansia species, associated with resistance to therapy. Mechanistically, oral Akkermansia massiliensis supplementation increased CAR T-cell infiltration into the bone marrow, inverted the CD4/CD8 CAR T-cell ratio, favored Tc1 CD8⁺ T-cell polarization, and promoted the 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 in the indole receptor, aryl hydrocarbon receptor (AhR). AhR-agonistic indoles alone failed to replicate the bacterium’s anticancer effects. These findings suggest that Akkermansia supplementation could improve CAR T-cell potency in patients with intestinal Akkermansia deficiency. Significance: B-cell lymphoma patients treated with CAR T cells harbor major gut microbiota perturbations and related metabolism that restrain CAR T-cell therapy. Reprogramming the gut microbiota ecosystem by oral A. massiliensis supplementation induces CAR T-cell niching and Tc1 differentiation in the bone marrow, promoting tumor control in an AhR-dependent manner.

Original language	English
Pages (from-to)	1905-1926
Number of pages	22
Journal	Cancer Discovery
Volume	15
Issue number	9
DOIs	https://doi.org/10.1158/2159-8290.CD-24-1230
State	Published - 1 Sep 2025
Externally published	Yes

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10.1158/2159-8290.CD-24-1230

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Marcos-Kovandzic, L., Avagliano, M., Khelil, M. B., Srikanthan, J., Abdallah, R., Petrocelli, V., Rengassamy, J., Alfaro, A., Bied, M., Fidelle, M., Ferrere, G., Daillère, R., Arbab, A., Amine-Hneineh, R., Pages, A., Dartigues, P., Ly, P., Simon, S., Durand, S., ... Bigenwald, C. (2025). Gut Microbiota Modulation through Akkermansia spp. Supplementation Increases CAR T-cell Potency. Cancer Discovery, 15(9), 1905-1926. https://doi.org/10.1158/2159-8290.CD-24-1230

@article{a0e0b3e634514897b874b7ad64d856b6,

title = "Gut Microbiota Modulation through Akkermansia spp. Supplementation Increases CAR T-cell Potency",

abstract = "This study investigates the clinical relevance of the gut microbiome at taxonomic and metabolic levels in anti-CD19 chimeric antigen receptor (CAR) T-cell therapy, both in patients and in a preclinical syngeneic tumor model. Patients with B-cell lymphoma treated with CD19 CAR T cells exhibited profound intestinal dysbiosis, exacerbated after CAR T-cell infusion. This dysbiosis was characterized by low bacterial richness, low soluble MAdCAM-1, and loss of Akkermansia species, associated with resistance to therapy. Mechanistically, oral Akkermansia massiliensis supplementation increased CAR T-cell infiltration into the bone marrow, inverted the CD4/CD8 CAR T-cell ratio, favored Tc1 CD8+ T-cell polarization, and promoted the 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 in the indole receptor, aryl hydrocarbon receptor (AhR). AhR-agonistic indoles alone failed to replicate the bacterium{\textquoteright}s anticancer effects. These findings suggest that Akkermansia supplementation could improve CAR T-cell potency in patients with intestinal Akkermansia deficiency. Significance: B-cell lymphoma patients treated with CAR T cells harbor major gut microbiota perturbations and related metabolism that restrain CAR T-cell therapy. Reprogramming the gut microbiota ecosystem by oral A. massiliensis supplementation induces CAR T-cell niching and Tc1 differentiation in the bone marrow, promoting tumor control in an AhR-dependent manner.",

author = "Laura Marcos-Kovandzic and Michele Avagliano and Khelil, \{Myriam Ben\} and Janesa Srikanthan and Rim Abdallah and Valentina Petrocelli and Jessica Rengassamy and Alexia Alfaro and Mathilde Bied and Marine Fidelle and Gladys Ferrere and Romain Daill{\`e}re and Ahmadreza Arbab and Roula Amine-Hneineh and Arnaud Pages and Peggy Dartigues and Pierre Ly and Sylvain Simon and Sylv{\`e}re Durand and Adrian Gottschlich and Florent Ginhoux and Camille Bl{\'e}riot and Peng Liu and Liwei Zhao and Laura Creusot and Nathalie Rolhion and Lisa Derosa and Guido Kroemer and Laurie Menger and Sebastian Kobold and Cristina Castilla-Llorente and Harry Sokol and Stefano Casola and Edoardo Pasolli and Laurence Zitvogel and Camille Bigenwald",

note = "Publisher Copyright: {\textcopyright}2025 The Authors; Published by the American Association for Cancer Research.",

year = "2025",

month = sep,

day = "1",

doi = "10.1158/2159-8290.CD-24-1230",

language = "English",

volume = "15",

pages = "1905--1926",

journal = "Cancer Discovery",

issn = "2159-8274",

publisher = "American Association for Cancer Research Inc.",

number = "9",

}

Marcos-Kovandzic, L, Avagliano, M, Khelil, MB, Srikanthan, J, Abdallah, R, Petrocelli, V, Rengassamy, J, Alfaro, A, Bied, M, Fidelle, M, Ferrere, G, Daillère, R, Arbab, A, Amine-Hneineh, R, Pages, A, Dartigues, P, Ly, P, Simon, S, Durand, S, Gottschlich, A, Ginhoux, F, Blériot, C, Liu, P, Zhao, L, Creusot, L, Rolhion, N, Derosa, L, Kroemer, G, Menger, L, Kobold, S, Castilla-Llorente, C, Sokol, H, Casola, S, Pasolli, E, Zitvogel, L & Bigenwald, C 2025, 'Gut Microbiota Modulation through Akkermansia spp. Supplementation Increases CAR T-cell Potency', Cancer Discovery, vol. 15, no. 9, pp. 1905-1926. https://doi.org/10.1158/2159-8290.CD-24-1230

TY - JOUR

T1 - Gut Microbiota Modulation through Akkermansia spp. Supplementation Increases CAR T-cell Potency

AU - Marcos-Kovandzic, Laura

AU - Avagliano, Michele

AU - Khelil, Myriam Ben

AU - Srikanthan, Janesa

AU - Abdallah, Rim

AU - Petrocelli, Valentina

AU - Rengassamy, Jessica

AU - Alfaro, Alexia

AU - Bied, Mathilde

AU - Fidelle, Marine

AU - Ferrere, Gladys

AU - Daillère, Romain

AU - Arbab, Ahmadreza

AU - Amine-Hneineh, Roula

AU - Pages, Arnaud

AU - Dartigues, Peggy

AU - Ly, Pierre

AU - Simon, Sylvain

AU - Durand, Sylvère

AU - Gottschlich, Adrian

AU - Ginhoux, Florent

AU - Blériot, Camille

AU - Liu, Peng

AU - Zhao, Liwei

AU - Creusot, Laura

AU - Rolhion, Nathalie

AU - Derosa, Lisa

AU - Kroemer, Guido

AU - Menger, Laurie

AU - Kobold, Sebastian

AU - Castilla-Llorente, Cristina

AU - Sokol, Harry

AU - Casola, Stefano

AU - Pasolli, Edoardo

AU - Zitvogel, Laurence

AU - Bigenwald, Camille

PY - 2025/9/1

Y1 - 2025/9/1

N2 - This study investigates the clinical relevance of the gut microbiome at taxonomic and metabolic levels in anti-CD19 chimeric antigen receptor (CAR) T-cell therapy, both in patients and in a preclinical syngeneic tumor model. Patients with B-cell lymphoma treated with CD19 CAR T cells exhibited profound intestinal dysbiosis, exacerbated after CAR T-cell infusion. This dysbiosis was characterized by low bacterial richness, low soluble MAdCAM-1, and loss of Akkermansia species, associated with resistance to therapy. Mechanistically, oral Akkermansia massiliensis supplementation increased CAR T-cell infiltration into the bone marrow, inverted the CD4/CD8 CAR T-cell ratio, favored Tc1 CD8+ T-cell polarization, and promoted the 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 in the indole receptor, aryl hydrocarbon receptor (AhR). AhR-agonistic indoles alone failed to replicate the bacterium’s anticancer effects. These findings suggest that Akkermansia supplementation could improve CAR T-cell potency in patients with intestinal Akkermansia deficiency. Significance: B-cell lymphoma patients treated with CAR T cells harbor major gut microbiota perturbations and related metabolism that restrain CAR T-cell therapy. Reprogramming the gut microbiota ecosystem by oral A. massiliensis supplementation induces CAR T-cell niching and Tc1 differentiation in the bone marrow, promoting tumor control in an AhR-dependent manner.

AB - This study investigates the clinical relevance of the gut microbiome at taxonomic and metabolic levels in anti-CD19 chimeric antigen receptor (CAR) T-cell therapy, both in patients and in a preclinical syngeneic tumor model. Patients with B-cell lymphoma treated with CD19 CAR T cells exhibited profound intestinal dysbiosis, exacerbated after CAR T-cell infusion. This dysbiosis was characterized by low bacterial richness, low soluble MAdCAM-1, and loss of Akkermansia species, associated with resistance to therapy. Mechanistically, oral Akkermansia massiliensis supplementation increased CAR T-cell infiltration into the bone marrow, inverted the CD4/CD8 CAR T-cell ratio, favored Tc1 CD8+ T-cell polarization, and promoted the 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 in the indole receptor, aryl hydrocarbon receptor (AhR). AhR-agonistic indoles alone failed to replicate the bacterium’s anticancer effects. These findings suggest that Akkermansia supplementation could improve CAR T-cell potency in patients with intestinal Akkermansia deficiency. Significance: B-cell lymphoma patients treated with CAR T cells harbor major gut microbiota perturbations and related metabolism that restrain CAR T-cell therapy. Reprogramming the gut microbiota ecosystem by oral A. massiliensis supplementation induces CAR T-cell niching and Tc1 differentiation in the bone marrow, promoting tumor control in an AhR-dependent manner.

UR - https://www.scopus.com/pages/publications/105015802473

U2 - 10.1158/2159-8290.CD-24-1230

DO - 10.1158/2159-8290.CD-24-1230

M3 - Article

C2 - 40498998

AN - SCOPUS:105015802473

SN - 2159-8274

VL - 15

SP - 1905

EP - 1926

JO - Cancer Discovery

JF - Cancer Discovery

IS - 9

ER -

Gut Microbiota Modulation through Akkermansia spp. Supplementation Increases CAR T-cell Potency

Abstract

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