A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota

A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota

Abstract Background Successful chemoprevention or chemotherapy is achieved through targeted delivery of prophylactic agents during initial phases of carcinogenesis or therapeutic agents to malignant tumors. Bacteria can be used as anticancer agents, but efforts to utilize attenuated pathogenic bacte...

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Main Authors: Yusook Chung, Yongku Ryu, Byung Chull An, Yeo-Sang Yoon, Oksik Choi, Tai Yeub Kim, Jaekyung Yoon, Jun Young Ahn, Ho Jin Park, Soon-Kyeong Kwon, Jihyun F. Kim, Myung Jun Chung
Format: Article
Language:English
Published: BMC 2021-05-01
Series:Microbiome
Subjects:
Lactobacillus rhamnosus CBT LR5 (KCTC 12202BP)
Alanine racemase
DLD-1 xenograft
AOM/DSS model of colitis-associated cancer
Microbiome
Akkermansia
Online Access:https://doi.org/10.1186/s40168-021-01071-4
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spelling doaj-1946e4ff511945149d0b05c4e63a517b2021-05-30T11:47:18ZengBMCMicrobiome2049-26182021-05-019111710.1186/s40168-021-01071-4A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiotaYusook Chung0Yongku Ryu1Byung Chull An2Yeo-Sang Yoon3Oksik Choi4Tai Yeub Kim5Jaekyung Yoon6Jun Young Ahn7Ho Jin Park8Soon-Kyeong Kwon9Jihyun F. Kim10Myung Jun Chung11R&D Center, Cell Biotech, Co., Ltd.R&D Center, Cell Biotech, Co., Ltd.R&D Center, Cell Biotech, Co., Ltd.R&D Center, Cell Biotech, Co., Ltd.R&D Center, Cell Biotech, Co., Ltd.R&D Center, Cell Biotech, Co., Ltd.Department of Systems Biology, Division of Life Sciences, and Institute for Life Science and Biotechnology, Yonsei UniversityR&D Center, Cell Biotech, Co., Ltd.R&D Center, Cell Biotech, Co., Ltd.Department of Systems Biology, Division of Life Sciences, and Institute for Life Science and Biotechnology, Yonsei UniversityDepartment of Systems Biology, Division of Life Sciences, and Institute for Life Science and Biotechnology, Yonsei UniversityR&D Center, Cell Biotech, Co., Ltd.Abstract Background Successful chemoprevention or chemotherapy is achieved through targeted delivery of prophylactic agents during initial phases of carcinogenesis or therapeutic agents to malignant tumors. Bacteria can be used as anticancer agents, but efforts to utilize attenuated pathogenic bacteria suffer from the risk of toxicity or infection. Lactic acid bacteria are safe to eat and often confer health benefits, making them ideal candidates for live vehicles engineered to deliver anticancer drugs. Results In this study, we developed an effective bacterial drug delivery system for colorectal cancer (CRC) therapy using the lactic acid bacterium Pediococcus pentosaceus. It is equipped with dual gene cassettes driven by a strong inducible promoter that encode the therapeutic protein P8 fused to a secretion signal peptide and a complementation system. In an inducible CRC cell-derived xenograft mouse model, our synthetic probiotic significantly reduced tumor volume and inhibited tumor growth relative to the control. Mice with colitis-associated CRC induced by azoxymethane and dextran sodium sulfate exhibited polyp regression and recovered taxonomic diversity when the engineered bacterium was orally administered. Further, the synthetic probiotic modulated gut microbiota and alleviated the chemically induced dysbiosis. Correlation analysis demonstrated that specific bacterial taxa potentially associated with eubiosis or dysbiosis, such as Akkermansia or Turicibacter, have positive or negative relationships with other microbial members. Conclusions Taken together, our work illustrates that an effective and stable synthetic probiotic composed of P. pentosaceus and the P8 therapeutic protein can reduce CRC and contribute to rebiosis, and the validity and feasibility of cell-based designer biopharmaceuticals for both treating CRC and ameliorating impaired microbiota. Video abstracthttps://doi.org/10.1186/s40168-021-01071-4Lactobacillus rhamnosus CBT LR5 (KCTC 12202BP)Alanine racemaseDLD-1 xenograftAOM/DSS model of colitis-associated cancerMicrobiomeAkkermansia
collection DOAJ
language English
format Article
sources DOAJ
author Yusook Chung
Yongku Ryu
Byung Chull An
Yeo-Sang Yoon
Oksik Choi
Tai Yeub Kim
Jaekyung Yoon
Jun Young Ahn
Ho Jin Park
Soon-Kyeong Kwon
Jihyun F. Kim
Myung Jun Chung
spellingShingle Yusook Chung
Yongku Ryu
Byung Chull An
Yeo-Sang Yoon
Oksik Choi
Tai Yeub Kim
Jaekyung Yoon
Jun Young Ahn
Ho Jin Park
Soon-Kyeong Kwon
Jihyun F. Kim
Myung Jun Chung
A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota
Microbiome
Lactobacillus rhamnosus CBT LR5 (KCTC 12202BP)
Alanine racemase
DLD-1 xenograft
AOM/DSS model of colitis-associated cancer
Microbiome
Akkermansia
author_facet Yusook Chung
Yongku Ryu
Byung Chull An
Yeo-Sang Yoon
Oksik Choi
Tai Yeub Kim
Jaekyung Yoon
Jun Young Ahn
Ho Jin Park
Soon-Kyeong Kwon
Jihyun F. Kim
Myung Jun Chung
author_sort Yusook Chung
title A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota
title_short A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota
title_full A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota
title_fullStr A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota
title_full_unstemmed A synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota
title_sort synthetic probiotic engineered for colorectal cancer therapy modulates gut microbiota
publisher BMC
series Microbiome
issn 2049-2618
publishDate 2021-05-01
description Abstract Background Successful chemoprevention or chemotherapy is achieved through targeted delivery of prophylactic agents during initial phases of carcinogenesis or therapeutic agents to malignant tumors. Bacteria can be used as anticancer agents, but efforts to utilize attenuated pathogenic bacteria suffer from the risk of toxicity or infection. Lactic acid bacteria are safe to eat and often confer health benefits, making them ideal candidates for live vehicles engineered to deliver anticancer drugs. Results In this study, we developed an effective bacterial drug delivery system for colorectal cancer (CRC) therapy using the lactic acid bacterium Pediococcus pentosaceus. It is equipped with dual gene cassettes driven by a strong inducible promoter that encode the therapeutic protein P8 fused to a secretion signal peptide and a complementation system. In an inducible CRC cell-derived xenograft mouse model, our synthetic probiotic significantly reduced tumor volume and inhibited tumor growth relative to the control. Mice with colitis-associated CRC induced by azoxymethane and dextran sodium sulfate exhibited polyp regression and recovered taxonomic diversity when the engineered bacterium was orally administered. Further, the synthetic probiotic modulated gut microbiota and alleviated the chemically induced dysbiosis. Correlation analysis demonstrated that specific bacterial taxa potentially associated with eubiosis or dysbiosis, such as Akkermansia or Turicibacter, have positive or negative relationships with other microbial members. Conclusions Taken together, our work illustrates that an effective and stable synthetic probiotic composed of P. pentosaceus and the P8 therapeutic protein can reduce CRC and contribute to rebiosis, and the validity and feasibility of cell-based designer biopharmaceuticals for both treating CRC and ameliorating impaired microbiota. Video abstract
topic Lactobacillus rhamnosus CBT LR5 (KCTC 12202BP)
Alanine racemase
DLD-1 xenograft
AOM/DSS model of colitis-associated cancer
Microbiome
Akkermansia
url https://doi.org/10.1186/s40168-021-01071-4
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