Literature DB >> 34446607

Enterococcus peptidoglycan remodeling promotes checkpoint inhibitor cancer immunotherapy.

Matthew E Griffin1,2,3,2,1, Juliel Espinosa1,2, Jessica L Becker1,2, Ji-Dung Luo3, Thomas S Carroll3, Jyoti K Jha4, Gary R Fanger4, Howard C Hang5,1.   

Abstract

The antitumor efficacy of cancer immunotherapy can correlate with the presence of certain bacterial species within the gut microbiome. However, many of the molecular mechanisms that influence host response to immunotherapy remain elusive. In this study, we show that members of the bacterial genus Enterococcus improve checkpoint inhibitor immunotherapy in mouse tumor models. Active enterococci express and secrete orthologs of the NlpC/p60 peptidoglycan hydrolase SagA that generate immune-active muropeptides. Expression of SagA in nonprotective E. faecalis was sufficient to promote immunotherapy response, and its activity required the peptidoglycan sensor NOD2. Notably, SagA-engineered probiotics or synthetic muropeptides also augmented anti-PD-L1 antitumor efficacy. Taken together, our data suggest that microbiota species with specialized peptidoglycan remodeling activity and muropeptide-based therapeutics may enhance cancer immunotherapy and could be leveraged as next-generation adjuvants.
Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2021        PMID: 34446607      PMCID: PMC9503018          DOI: 10.1126/science.abc9113

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   63.714


  43 in total

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2.  Translocation of a gut pathobiont drives autoimmunity in mice and humans.

Authors:  S Manfredo Vieira; M Hiltensperger; V Kumar; D Zegarra-Ruiz; C Dehner; N Khan; F R C Costa; E Tiniakou; T Greiling; W Ruff; A Barbieri; C Kriegel; S S Mehta; J R Knight; D Jain; A L Goodman; M A Kriegel
Journal:  Science       Date:  2018-03-09       Impact factor: 47.728

3.  Exploiting a host-commensal interaction to promote intestinal barrier function and enteric pathogen tolerance.

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Journal:  Sci Immunol       Date:  2016-09-22

Review 4.  Personalized vaccines for cancer immunotherapy.

Authors:  Ugur Sahin; Özlem Türeci
Journal:  Science       Date:  2018-03-23       Impact factor: 47.728

Review 5.  CAR T cell immunotherapy for human cancer.

Authors:  Carl H June; Roddy S O'Connor; Omkar U Kawalekar; Saba Ghassemi; Michael C Milone
Journal:  Science       Date:  2018-03-23       Impact factor: 47.728

6.  Enterococcus hirae and Barnesiella intestinihominis Facilitate Cyclophosphamide-Induced Therapeutic Immunomodulatory Effects.

Authors:  Romain Daillère; Marie Vétizou; Nadine Waldschmitt; Takahiro Yamazaki; Christophe Isnard; Vichnou Poirier-Colame; Connie P M Duong; Caroline Flament; Patricia Lepage; Maria Paula Roberti; Bertrand Routy; Nicolas Jacquelot; Lionel Apetoh; Sonia Becharef; Sylvie Rusakiewicz; Philippe Langella; Harry Sokol; Guido Kroemer; David Enot; Antoine Roux; Alexander Eggermont; Eric Tartour; Ludger Johannes; Paul-Louis Woerther; Elisabeth Chachaty; Jean-Charles Soria; Encouse Golden; Silvia Formenti; Magdalena Plebanski; Mutsa Madondo; Philip Rosenstiel; Didier Raoult; Vincent Cattoir; Ivo Gomperts Boneca; Mathias Chamaillard; Laurence Zitvogel
Journal:  Immunity       Date:  2016-10-04       Impact factor: 31.745

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Review 8.  The Influence of the Gut Microbiome on Cancer, Immunity, and Cancer Immunotherapy.

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Review 9.  Lactic Acid Bacteria for Delivery of Endogenous or Engineered Therapeutic Molecules.

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10.  Recognition of peptidoglycan from the microbiota by Nod1 enhances systemic innate immunity.

Authors:  Thomas B Clarke; Kimberly M Davis; Elena S Lysenko; Alice Y Zhou; Yimin Yu; Jeffrey N Weiser
Journal:  Nat Med       Date:  2010-01-17       Impact factor: 53.440
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  26 in total

Review 1.  Redrawing therapeutic boundaries: microbiota and cancer.

Authors:  Jonathan Sholl; Gregory D Sepich-Poore; Rob Knight; Thomas Pradeu
Journal:  Trends Cancer       Date:  2021-11-26

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Authors:  Wangbin Ning; Da Cheng; Philip H Howe; Chuanxiu Bian; Diane L Kamen; Zhenwu Luo; Xiaoyu Fu; Elizabeth Ogunrinde; Liuqing Yang; Xu Wang; Quan-Zhen Li; Jim Oates; Weiru Zhang; David White; Zhuang Wan; Gary S Gilkeson; Wei Jiang
Journal:  J Autoimmun       Date:  2022-07-08       Impact factor: 14.511

3.  Anti-PD-1 antibody-activated Th17 cells subvert re-invigoration of antitumor cytotoxic T-lymphocytes via myeloid cell-derived COX-2/PGE2.

Authors:  Qingsheng Li; Kevin E Goggin; SeonYeong Seo; Jonathan M Warawa; Nejat K Egilmez
Journal:  Cancer Immunol Immunother       Date:  2022-09-08       Impact factor: 6.630

4.  Chemoproteomic Analysis of Microbiota Metabolite-Protein Targets and Mechanisms.

Authors:  Xiaohui Zhao; Xinglin Yang; Howard C Hang
Journal:  Biochemistry       Date:  2022-01-06       Impact factor: 3.321

Review 5.  Targeting the gut microbiota for cancer therapy.

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Review 6.  Targeting the gut and tumor microbiota in cancer.

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Review 7.  Bacterial-Based Cancer Therapy (BBCT): Recent Advances, Current Challenges, and Future Prospects for Cancer Immunotherapy.

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Review 8.  Human Microbiome and Its Medical Applications.

Authors:  Yangming Zhang; Linguang Zhou; Jialin Xia; Ce Dong; Xiaozhou Luo
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Review 9.  Comparative Analysis of Predictive Biomarkers for PD-1/PD-L1 Inhibitors in Cancers: Developments and Challenges.

Authors:  Fang Yang; Jacqueline F Wang; Yucai Wang; Baorui Liu; Julian R Molina
Journal:  Cancers (Basel)       Date:  2021-12-27       Impact factor: 6.639

10.  RecT Recombinase Expression Enables Efficient Gene Editing in Enterococcus spp.

Authors:  Victor Chen; Matthew E Griffin; Pascal Maguin; Andrew Varble; Howard C Hang
Journal:  Appl Environ Microbiol       Date:  2021-08-26       Impact factor: 4.792
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