The Potential of Colonic Tumor Tissue Fusobacterium nucleatum to Predict Staging and Its Interplay with Oral Abundance in Colon Cancer Patients

Pignatelli, Pamela; Iezzi, Lorena; Pennese, Martina; Raimondi, Paolo; Cichella, Anna; Bondi, Danilo; Grande, Rossella; Cotellese, Roberto; Bartolomeo, Nicola; Innocenti, Paolo; Piattelli, Adriano; Curia, Maria Cristina

doi:10.3390/cancers13051032

Cited by 27 publications

(41 citation statements)

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“…Over 100 epidemiological studies have been identified in the primary search specifically mentioning F. nucleatum in the abstract. Supplementary Table 10 summarizes the characteristics and main outcomes of 42 of these epidemiological studies which met the eligibility criteria, most of which comparing F. nucleatum presence/abundance in feces from CRC patients versus healthy controls and of tumor tissue versus adjacent normal tissue ( Supplementary Table 10 ; Castellarin et al, 2012 ; Flanagan et al, 2014 ; Fukugaiti et al, 2015 ; Ito et al, 2015 ; Mira-Pascual et al, 2015 ; Wang et al, 2016 ; Xie and Fang, 2016 ; Yu et al, 2016 , 2017 ; Amitay et al, 2017 ; Drewes et al, 2017 ; Eklöf et al, 2017 ; Liang et al, 2017 , 2021 ; Scott et al, 2017 ; Suehiro et al, 2017 ; Yamamura et al, 2017 ; Yoon et al, 2017 ; Hale et al, 2018 ; Hsieh et al, 2018 ; Kwong et al, 2018 ; Repass, 2018 ; Russo et al, 2018 ; Tsuchiya et al, 2018 ; Bundgaard-Nielsen et al, 2019 ; Butt et al, 2019 ; Chen et al, 2019 ; De Carvalho et al, 2019 ; Kageyama et al, 2019 ; Saito et al, 2019 ; Tunsjø et al, 2019 ; Yachida et al, 2019 ; Zhang et al, 2019 ; Alkharaan et al, 2020 ; Boehm et al, 2020 ; Gantuya et al, 2020 ; Kashani et al, 2020 ; Reynolds et al, 2020 ; Eisele et al, 2021 ; Kawasaki et al, 2021 ; Kurt and Yumuk, 2021 ; Pignatelli et al, 2021 ). Two meta-analyses published in 2020 reported pooled ORs of 8.3 for detection of F. nucleatum in colorectal specimens (feces/mucosa/tissue) and being diagnosed with CRC, and 10.06 for detection of F. nucleatum in CRC tissue versus healthy tissue from controls ( Supplementary Table 7 ; Gethi...…”

Section: Resultsmentioning

confidence: 99%

Bacterial and Parasitic Pathogens as Risk Factors for Cancers in the Gastrointestinal Tract: A Review of Current Epidemiological Knowledge

et al. 2021

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The oncogenic potential of viral infections is well established and documented for many years already. However, the contribution of (commensal) bacteria and parasites to the development and progression of cancers has only recently gained momentum, resulting in a rapid growth of publications on the topic. Indeed, various bacteria and parasites have been suggested to play a role in the development of gastrointestinal cancer in particular. Therefore, an overview of the current epidemiological knowledge on the association between infections with bacteria and parasites and cancers of the gastrointestinal tract is needed. In this review, we summarized the methodological characteristics and main results of epidemiological studies investigating the association of 10 different bacteria (Bacteroides fragilis, Campylobacter spp., Clostridium spp., Enterococcus faecalis, Escherichia coli, Fusobacterium nucleatum, Porphyromonas gingivalis, non-typhoidal Salmonella, Salmonella Typhi, and Streptococcus spp.) and three parasites (Cryptosporidium spp., Schistosoma spp., and Strongyloides stercoralis) with gastrointestinal cancer. While the large body of studies based on microbiome sequencing provides valuable insights into the relative abundance of different bacterial taxa in cancer patients as compared to individuals with pre-malignant conditions or healthy controls, more research is needed to fulfill Koch’s postulates, possibly making use of follow-up data, to assess the complex role of bacterial and parasitic infections in cancer epidemiology. Studies incorporating follow-up time between detection of the bacterium or parasite and cancer diagnosis remain valuable as these allow for estimation of cause-effect relationships.

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Section: Resultsmentioning

confidence: 99%

Bacterial and Parasitic Pathogens as Risk Factors for Cancers in the Gastrointestinal Tract: A Review of Current Epidemiological Knowledge

et al. 2021

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“…In addition, exposure to blue light with a wavelength of 400–500 nm may have a phototoxic effect on F. nucleatum in multispecies biofilms [ 29 ]. If the proportion of F. nucleatum in the oral cavity can be controlled via violet LED irradiation, it may potentially prevent the development of periodontal disease and colon cancer [ 49 , 50 ]. The detailed mechanism of Fusobacterium species reduction by violet LEDs could not be clarified in this study.…”

Section: Discussionmentioning

confidence: 99%

Interdental Plaque Microbial Community Changes under In Vitro Violet LED Irradiation

et al. 2021

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Oral microbiome dysbiosis has important links to human health and disease. Although photodynamic therapy influences microbiome diversity, the specific effect of violet light irradiation remains largely unknown. In this study, we analyzed the effect of violet light-emitting diode (LED) irradiation on interdental plaque microbiota. Interdental plaque was collected from 12 human subjects, exposed to violet LED irradiation, and cultured in a specialized growth medium. Next-generation sequencing of the 16S ribosomal RNA genes revealed that α-diversity decreased, whereas β-diversity exhibited a continuous change with violet LED irradiation doses. In addition, we identified several operational taxonomic units that exhibited significant shifts during violet LED irradiation. Specifically, violet LED irradiation led to a significant reduction in the relative abundance of Fusobacterium species, but a significant increase in several species of oral bacteria, such as Veillonella and Campylobacter. Our study provides an overview of oral plaque microbiota changes under violet LED irradiation, and highlights the potential of this method for adjusting the balance of the oral microbiome without inducing antibiotic resistance.

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“…Inflammatory diets, mutagens (NOCs, PAHs, and HCAs), and heme from red meat can damage the intestinal barrier by promoting sulfide-producing bacteria and mucin-degrading bacteria, such as A. muciniphila ( Ijssennagger et al., 2015 ; Mehta et al., 2019 ; Pignatelli et al., 2021 ). Ijssennagger et al.…”

Section: Gut Dysbiosis and Intestinal Barrier Dysfunctionmentioning

confidence: 99%

“…This cascade of events results in the activation of the Wnt signaling pathway, which increases the risk of CRC. Liu L. et al (2018) and Pignatelli et al. (2021) found that F. nucleatum triggers colorectal tumorigenesis through the activation of the Wnt pathway ( Liu L. et al., 2018 ).…”

Section: Gut Dysbiosis and Intestinal Barrier Dysfunctionmentioning

confidence: 99%

“…(2021) found that F. nucleatum triggers colorectal tumorigenesis through the activation of the Wnt pathway ( Liu L. et al., 2018 ). The abundance of F. nucleatum at tumor area results in the increased production of reactive oxygen species, which initiate mutation through the reduction of MLH1 expression and subsequent MSI ( Pignatelli et al., 2021 ). In addition, F. nucleatum increases metalloproteases, which activate inflammatory pathways ( Pignatelli et al., 2021 ).…”

Section: Gut Dysbiosis and Intestinal Barrier Dysfunctionmentioning

confidence: 99%

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Gut Dysbiosis and Intestinal Barrier Dysfunction: Potential Explanation for Early-Onset Colorectal Cancer

Kendong

Ali

Nawawi

et al. 2021

Front. Cell. Infect. Microbiol.

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Colorectal cancer (CRC) is a heterogeneous disease that commonly affects individuals aged more than 50 years old globally. Regular colorectal screening, which is recommended for individuals aged 50 and above, has decreased the number of cancer death toll over the years. However, CRC incidence has increased among younger population (below 50 years old). Environmental factors, such as smoking, dietary factor, urbanization, sedentary lifestyle, and obesity, may contribute to the rising trend of early-onset colorectal cancer (EOCRC) because of the lack of genetic susceptibility. Research has focused on the role of gut microbiota and its interaction with epithelial barrier genes in sporadic CRC. Population with increased consumption of grain and vegetables showed high abundance of Prevotella, which reduces the risk of CRC. Microbes, such as Fusobacterium nucleatum, Bacteroides fragilis and Escherichia coli deteriorate in the intestinal barrier, which leads to the infiltration of inflammatory mediators and chemokines. Gut dysbiosis may also occur following inflammation as clearly observed in animal model. Both gut dysbiosis pre- or post-inflammatory process may cause major alteration in the morphology and functional properties of the gut tissue and explain the pathological outcome of EOCRC. The precise mechanism of disease progression from an early stage until cancer establishment is not fully understood. We hypothesized that gut dysbiosis, which may be influenced by environmental factors, may induce changes in the genome, metabolome, and immunome that could destruct the intestinal barrier function. Also, the possible underlying inflammation may give impact microbial community leading to disruption of physical and functional role of intestinal barrier. This review explains the potential role of the interaction among host factors, gut microenvironment, and gut microbiota, which may provide an answer to EOCRC.

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The Potential of Colonic Tumor Tissue Fusobacterium nucleatum to Predict Staging and Its Interplay with Oral Abundance in Colon Cancer Patients

Cited by 27 publications

References 62 publications

Bacterial and Parasitic Pathogens as Risk Factors for Cancers in the Gastrointestinal Tract: A Review of Current Epidemiological Knowledge

Bacterial and Parasitic Pathogens as Risk Factors for Cancers in the Gastrointestinal Tract: A Review of Current Epidemiological Knowledge

Interdental Plaque Microbial Community Changes under In Vitro Violet LED Irradiation

Gut Dysbiosis and Intestinal Barrier Dysfunction: Potential Explanation for Early-Onset Colorectal Cancer

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