Radiotherapy and the gut microbiome: facts and fiction

Liu, Jing; Liu, Chao; Yue, Jinbo

doi:10.1186/s13014-020-01735-9

Cited by 127 publications

(101 citation statements)

References 118 publications

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“…Yi et al [ 86 ] identified potential microbial biomarkers for predicting the response to nCCRT in locally advanced rectal cancer: butyrate-producing bacteria, including Roseburia , Dorea , and Anaerostipes were overrepresented in responders, whereas Coriobacteriaceae and Fusobacterium were markedly higher in non-responders. Although gut dysbiosis could be a relevant biomarker to predict radiotherapy-induced mucositis [ 87 , 88 ], the direct impact on the patients’ response to radiotherapy has not yet been investigated yet. Recently Guo et al described in mice that radiation survivors could be identified by specific bacterial and metabolite profiles (Lachnosspiraceae and Enterococcaceae increases and downstream metabolites such as propionate and tryptophan pathways) [ 89 ].…”

Section: Gut Microbiota Biomarkers Predicting Prognosis And/or Treatment Responsementioning

confidence: 99%

Gut Microbiota as Potential Biomarker and/or Therapeutic Target to Improve the Management of Cancer: Focus on Colibactin-Producing Escherichia coli in Colorectal Cancer

Véziant

Villéger

Barnich

et al. 2021

Cancers

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The gut microbiota is crucial for physiological development and immunological homeostasis. Alterations of this microbial community called dysbiosis, have been associated with cancers such colorectal cancers (CRC). The pro-carcinogenic potential of this dysbiotic microbiota has been demonstrated in the colon. Recently the role of the microbiota in the efficacy of anti-tumor therapeutic strategies has been described in digestive cancers and in other cancers (e.g., melanoma and sarcoma). Different bacterial species seem to be implicated in these mechanisms: F. nucleatum, B. fragilis, and colibactin-associated E. coli (CoPEC). CoPEC bacteria are prevalent in the colonic mucosa of patients with CRC and they promote colorectal carcinogenesis in susceptible mouse models of CRC. In this review, we report preclinical and clinical data that suggest that CoPEC could be a new factor predictive of poor outcomes that could be used to improve cancer management. Moreover, we describe the possibility of using these bacteria as new therapeutic targets.

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Section: Gut Microbiota Biomarkers Predicting Prognosis And/or Treatment Responsementioning

confidence: 99%

Gut Microbiota as Potential Biomarker and/or Therapeutic Target to Improve the Management of Cancer: Focus on Colibactin-Producing Escherichia coli in Colorectal Cancer

Véziant

Villéger

Barnich

et al. 2021

Cancers

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“…Through this research, genus-and species-level identification and abundance across individuals and across their body regions (Table 1) have uncovered high inter-individual and intraindividual microbiota diversity that is impacted by co-evolutionary selection, age, diet, and geographic region (Mackie et al, 1999;Spor et al, 2011;Lozupone et al, 2012;Morgan and Huttenhower, 2012; or challenges (Bäckhed et al, 2005). Investigation of the virome, mycobiome, and archaea components of the microbiota broadly and particularly in response to radiation has been lacking (Rosenberg and Zilber-Rosenberg, 2013;Roy and Trinchieri, 2017;Liu et al, 2021). It is possible that broader insights into the impact of nonbacterial components of the GI microbiota might be obtained through non-targeted shotgun metagenomic sequencing techniques that would be capable of assessing radiation responses in the nonbacterial compartments of the GI microbiota (Campo et al, 2020;Kaźmierczak-Siedlecka et al, 2020;Turkington et al, 2021).…”

Section: History Of Microbiome Researchmentioning

confidence: 99%

“…As noted above, most studies of the effect of radiation on the GI microbiome have been conducted in the context of cancer radiotherapy, and recent reviews summarize the literature in that context (Liu et al, 2021;Tonneau et al, 2021). Indeed, therapeutic abdominopelvic radiation exposure frequently results in intestinal dysfunction and dysbiosis, with acute radiation enteritis complications observed in 50% or more of abdominally irradiated cancer patients (Touchefeu et al, 2014).…”

Section: Gut Microbiomementioning

confidence: 99%

Acute Radiation Syndrome and the Microbiome: Impact and Review

et al. 2021

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Study of the human microbiota has been a centuries-long endeavor, but since the inception of the National Institutes of Health (NIH) Human Microbiome Project in 2007, research has greatly expanded, including the space involving radiation injury. As acute radiation syndrome (ARS) is multisystemic, the microbiome niches across all areas of the body may be affected. This review highlights advances in radiation research examining the effect of irradiation on the microbiome and its potential use as a target for medical countermeasures or biodosimetry approaches, or as a medical countermeasure itself. The authors also address animal model considerations for designing studies, and the potential to use the microbiome as a biomarker to assess radiation exposure and predict outcome. Recent research has shown that the microbiome holds enormous potential for mitigation of radiation injury, in the context of both radiotherapy and radiological/nuclear public health emergencies. Gaps still exist, but the field is moving forward with much promise.

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“…As a novel approach to augment cancer therapy, they are thought to improve the diversity profile of the intestinal microbiota and reduce the extent of chronic inflammation and production of carcinogenic material in dysbiosis [ 2 , 95 , 96 ]. Prebiotics are non-digestible food constituents that selectively alter the growth of certain host-beneficial bacteria [ 97 ]. The combination of probiotics and prebiotics is called synbiotics.…”

Section: Effects Of Synbioticsmentioning

confidence: 99%

A Perspective on the Role of Microbiome for Colorectal Cancer Treatment

Kalasabail

Engelman

Zhang

et al. 2021

Cancers

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In healthy hosts, trillions of microbes colonise the gut and oral cavity in a well-balanced state, maintaining a mutually beneficial relationship. Loss of this balance, termed dysbiosis, is strongly implicated in the pathogenesis of colorectal cancer (CRC). However, the roles of microbiota and dysbiosis in CRC treatment remain poorly understood. Recent studies suggest that the gut microbiota has the ability to affect the host response to chemotherapeutic agents by enhancing drug efficacy, promoting chemoresistance and mediating chemotherapy-induced toxicity and side effects via a variety of mechanisms. Several other studies have also proposed manipulation of the microbiota to optimise CRC treatment. In this review, we summarise the current advancement of knowledge on how microbiota and CRC treatments interact with each other and how this interaction may shed some light on the development of personalised microbiota manipulations that improve CRC treatment outcomes.

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Radiotherapy and the gut microbiome: facts and fiction

Cited by 127 publications

References 118 publications

Gut Microbiota as Potential Biomarker and/or Therapeutic Target to Improve the Management of Cancer: Focus on Colibactin-Producing Escherichia coli in Colorectal Cancer

Gut Microbiota as Potential Biomarker and/or Therapeutic Target to Improve the Management of Cancer: Focus on Colibactin-Producing Escherichia coli in Colorectal Cancer

Acute Radiation Syndrome and the Microbiome: Impact and Review

A Perspective on the Role of Microbiome for Colorectal Cancer Treatment

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