TY - JOUR
T1 - Multifaceted modes of action of the anticancer probiotic Enterococcus hirae
AU - Goubet, Anne Gaëlle
AU - Wheeler, Richard
AU - Fluckiger, Aurélie
AU - Qu, Bo
AU - Lemaître, Fabien
AU - Iribarren, Kristina
AU - Mondragón, Laura
AU - Tidjani Alou, Maryam
AU - Pizzato, Eugénie
AU - Durand, Sylvère
AU - Derosa, Lisa
AU - Aprahamian, Fanny
AU - Bossut, Noélie
AU - Moya-Nilges, Maryse
AU - Derrien, Diane
AU - Chen, Guo
AU - Leduc, Marion
AU - Joseph, Adrien
AU - Pons, Nicolas
AU - Le Chatelier, Emmanuelle
AU - Segata, Nicola
AU - Yonekura, Satoru
AU - Iebba, Valerio
AU - Kepp, Oliver
AU - Raoult, Didier
AU - André, Fabrice
AU - Kroemer, Guido
AU - Boneca, Ivo Gomperts
AU - Zitvogel, Laurence
AU - Daillère, Romain
N1 - Publisher Copyright:
© 2021, The Author(s), under exclusive licence to ADMC Associazione Differenziamento e Morte Cellulare.
PY - 2021/7/1
Y1 - 2021/7/1
N2 - A deviated repertoire of the gut microbiome predicts resistance to cancer immunotherapy. Enterococcus hirae compensated cancer-associated dysbiosis in various tumor models. However, the mechanisms by which E. hirae restored the efficacy of cyclophosphamide administered with concomitant antibiotics remain ill defined. Here, we analyzed the multifaceted modes of action of this anticancer probiotic. Firstly, E. hirae elicited emigration of thymocytes and triggered systemic and intratumoral IFNγ-producing and CD137-expressing effector memory T cell responses. Secondly, E. hirae activated the autophagy machinery in enterocytes and mediated ATG4B-dependent anticancer effects, likely as a consequence of its ability to increase local delivery of polyamines. Thirdly, E. hirae shifted the host microbiome toward a Bifidobacteria-enriched ecosystem. In contrast to the live bacterium, its pasteurized cells or membrane vesicles were devoid of anticancer properties. These pleiotropic functions allow the design of optimal immunotherapies combining E. hirae with CD137 agonistic antibodies, spermidine, or Bifidobacterium animalis. We surmise that immunological, metabolic, epithelial, and microbial modes of action of the live E. hirae cooperate to circumvent primary resistance to therapy.
AB - A deviated repertoire of the gut microbiome predicts resistance to cancer immunotherapy. Enterococcus hirae compensated cancer-associated dysbiosis in various tumor models. However, the mechanisms by which E. hirae restored the efficacy of cyclophosphamide administered with concomitant antibiotics remain ill defined. Here, we analyzed the multifaceted modes of action of this anticancer probiotic. Firstly, E. hirae elicited emigration of thymocytes and triggered systemic and intratumoral IFNγ-producing and CD137-expressing effector memory T cell responses. Secondly, E. hirae activated the autophagy machinery in enterocytes and mediated ATG4B-dependent anticancer effects, likely as a consequence of its ability to increase local delivery of polyamines. Thirdly, E. hirae shifted the host microbiome toward a Bifidobacteria-enriched ecosystem. In contrast to the live bacterium, its pasteurized cells or membrane vesicles were devoid of anticancer properties. These pleiotropic functions allow the design of optimal immunotherapies combining E. hirae with CD137 agonistic antibodies, spermidine, or Bifidobacterium animalis. We surmise that immunological, metabolic, epithelial, and microbial modes of action of the live E. hirae cooperate to circumvent primary resistance to therapy.
UR - http://www.scopus.com/inward/record.url?scp=85105845340&partnerID=8YFLogxK
U2 - 10.1038/s41418-021-00753-8
DO - 10.1038/s41418-021-00753-8
M3 - Article
C2 - 33976389
AN - SCOPUS:85105845340
SN - 1350-9047
VL - 28
SP - 2276
EP - 2295
JO - Cell Death and Differentiation
JF - Cell Death and Differentiation
IS - 7
ER -