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3. Disruption of the microbiota-gut-brain axis is a defining characteristic of the α-Gal A (-/0) mouse model of Fabry disease

Author

Delprete, C., primary, Rimondini Giorgini, R., additional, Lucarini, E., additional, Bastiaanssen, T.F.S., additional, Scicchitano, D., additional, Interino, N., additional, Formaggio, F., additional, Uhlig, F., additional, Ghelardini, C., additional, Hyland, N.P., additional, Cryan, J.F., additional, Liguori, R., additional, Candela, M., additional, Fiori, J., additional, Turroni, S., additional, Di Cesare Mannelli, L., additional, and Caprini, M., additional

Published
2023
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4. Gut microbiota diversity before allogeneic hematopoietic stem cell transplantation as a predictor of mortality in children

Author

Masetti, R., Leardini, D., Muratore, E., Fabbrini, M., D'Amico, F., Zama, D., Baccelli, F., Gottardi, F., Belotti, T., Ussowicz, M., Fraczkiewicz, J., Cesaro, S., Zecca, M., Merli, P., Candela, M., Pession, A., Locatelli, Franco, Prete, A., Brigidi, P., Turroni, S., Locatelli F. (ORCID:0000-0002-7976-3654), Masetti, R., Leardini, D., Muratore, E., Fabbrini, M., D'Amico, F., Zama, D., Baccelli, F., Gottardi, F., Belotti, T., Ussowicz, M., Fraczkiewicz, J., Cesaro, S., Zecca, M., Merli, P., Candela, M., Pession, A., Locatelli, Franco, Prete, A., Brigidi, P., Turroni, S., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

The correlation existing between gut microbiota diversity and survival after allogeneic hematopoietic stem cell transplantation (allo-HSCT) has so far been studied in adults. Pediatric studies question whether this association applies to children as well. Stool samples from a multicenter cohort of 90 pediatric allo-HSCT recipients were analyzed using 16S ribosomal RNA amplicon sequencing to profile the gut microbiota and estimate diversity with the Shannon index. A global-to-local networking approach was used to characterize the ecological structure of the gut microbiota. Patients were stratified into higher- and lower-diversity groups at 2 time points: before transplantation and at neutrophil engraftment. The higher-diversity group before transplantation exhibited a higher probability of overall survival (88.9% ± 5.7% standard error [SE] vs 62.7% ± 8.2% SE; P = .011) and lower incidence of grade 2 to 4 and grade 3 to 4 acute graft-versus-host disease (aGVHD). No significant difference in relapse-free survival was observed between the 2 groups (80.0% ± 6.0% SE vs 55.4% ± 10.8% SE; P = .091). The higher-diversity group was characterized by higher relative abundances of potentially health-related microbial families, such as Ruminococcaceae and Oscillospiraceae. In contrast, the lower-diversity group showed an overabundance of Enterococcaceae and Enterobacteriaceae. Network analysis detected short-chain fatty acid producers, such as Blautia, Faecalibacterium, Roseburia, and Bacteroides, as keystones in the higher-diversity group. Enterococcus, Escherichia-Shigella, and Enterobacter were instead the keystones detected in the lower-diversity group. These results indicate that gut microbiota diversity and composition before transplantation correlate with survival and with the likelihood of developing aGVHD.

Published
2023

5. Intestinal Microbiome In Chronic Intestinal Failure

Author

Pironi, L., primary, D’Amico, F., additional, Guidetti, M., additional, Musio, A., additional, Sasdelli, A.S., additional, Turroni, S., additional, Rossetti, C., additional, Albanese, M.G., additional, Agnelli, G., additional, and Brigidi, P., additional

Published
2023
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7. Effects of Dietary Fibers on Short-Chain Fatty Acids and Gut Microbiota Composition in Healthy Adults: A Systematic Review

Author

Vinelli V., Biscotti P., Martini D., Del Bo' C., Marino M., Merono T., Nikoloudaki O., Calabrese F. M., Turroni S., Taverniti V., Caballero A. U., Andres-Lacueva C., Porrini M., Gobbetti M., De Angelis M., Brigidi P., Pinart M., Nimptsch K., Guglielmetti S., Riso P., Vinelli V., Biscotti P., Martini D., Del Bo' C., Marino M., Merono T., Nikoloudaki O., Calabrese F.M., Turroni S., Taverniti V., Caballero A.U., Andres-Lacueva C., Porrini M., Gobbetti M., De Angelis M., Brigidi P., Pinart M., Nimptsch K., Guglielmetti S., and Riso P.

Subjects
Adult, Dietary Fiber, Prebiotics, human gut microbiota, intervention studie, Microbiota, prebiotic, short chain fatty acid, Humans, Fatty Acids, Volatile, Human, Gastrointestinal Microbiome
Abstract

There is an increasing interest in investigating dietary strategies able to modulate the gut microbial ecosystem which, in turn, may play a key role in human health. Dietary fibers (DFs) are widely recognized as molecules with prebiotic effects. The main objective of this systematic review was to: (i) analyze the results available on the impact of DF intervention on short chain fatty acids (SCFAs) production; (ii) evaluate the interplay between the type of DF intervention, the gut microbiota composition and its metabolic activities, and any other health associated outcome evaluated in the host. To this aim, initially, a comprehensive database of literature on human intervention studies assessing the effect of confirmed and candidate prebiotics on the microbial ecosystem was developed. Subsequently, studies performed on DFs and analyzing at least the impact on SCFA levels were extracted from the database. A total of 44 studies from 42 manuscripts were selected for the analysis. Among the different types of fiber, inulin was the DF investigated the most (n = 11). Regarding the results obtained on the ability of fiber to modulate total SCFAs, seven studies reported a significant increase, while no significant changes were reported in five studies, depending on the analytical methodology used. A total of 26 studies did not show significant differences in individual SCFAs, while the others reported significant differences for one or more SCFAs. The effect of DF interventions on the SCFA profile seemed to be strictly dependent on the dose and the type and structure of DFs. Overall, these results underline that, although affecting microbiota composition and derived metabolites, DFs do not produce univocal significant increase in SCFA levels in apparently healthy adults. In this regard, several factors (i.e., related to the study protocols and analytical methods) have been identified that could have affected the results obtained in the studies evaluated. Future studies are needed to better elucidate the relationship between DFs and gut microbiota in terms of SCFA production and impact on health-related markers.

Published
2022

11. Effects of Dietary Fibers on Short-Chain Fatty Acids and Gut Microbiota Composition in Healthy Adults: A Systematic Review

Author

Vinelli, V, Biscotti, P, Martini, D, Del Bo', C, Marino, M, Meroño, T, Nikoloudaki, O, Calabrese, F, Turroni, S, Taverniti, V, Caballero, A, Andrés-Lacueva, C, Porrini, M, Gobbetti, M, De Angelis, M, Brigidi, P, Pinart, M, Nimptsch, K, Guglielmetti, S, Riso, P, Calabrese, FM, Caballero, AU, Vinelli, V, Biscotti, P, Martini, D, Del Bo', C, Marino, M, Meroño, T, Nikoloudaki, O, Calabrese, F, Turroni, S, Taverniti, V, Caballero, A, Andrés-Lacueva, C, Porrini, M, Gobbetti, M, De Angelis, M, Brigidi, P, Pinart, M, Nimptsch, K, Guglielmetti, S, Riso, P, Calabrese, FM, and Caballero, AU

Abstract

There is an increasing interest in investigating dietary strategies able to modulate the gut microbial ecosystem which, in turn, may play a key role in human health. Dietary fibers (DFs) are widely recognized as molecules with prebiotic effects. The main objective of this systematic review was to: (i) analyze the results available on the impact of DF intervention on short chain fatty acids (SCFAs) production; (ii) evaluate the interplay between the type of DF intervention, the gut microbiota composition and its metabolic activities, and any other health associated outcome evaluated in the host. To this aim, initially, a comprehensive database of literature on human intervention studies assessing the effect of confirmed and candidate prebiotics on the microbial ecosystem was developed. Subsequently, studies performed on DFs and analyzing at least the impact on SCFA levels were extracted from the database. A total of 44 studies from 42 manuscripts were selected for the analysis. Among the different types of fiber, inulin was the DF investigated the most (n = 11). Regarding the results obtained on the ability of fiber to modulate total SCFAs, seven studies reported a significant increase, while no significant changes were reported in five studies, depending on the analytical methodology used. A total of 26 studies did not show significant differences in individual SCFAs, while the others reported significant differences for one or more SCFAs. The effect of DF interventions on the SCFA profile seemed to be strictly dependent on the dose and the type and structure of DFs. Overall, these results underline that, although affecting microbiota composition and derived metabolites, DFs do not produce univocal significant increase in SCFA levels in apparently healthy adults. In this regard, several factors (i.e., related to the study protocols and analytical methods) have been identified that could have affected the results obtained in the studies evaluated. Future studies are

Published
2022

12. Gut Microbiota and Fear Processing in Women Affected by Obesity: An Exploratory Pilot Study

Author

Scarpina, F., Turroni, S., Mambrini, S., Barone, M., Cattaldo, S., Mai, S., Prina, E., Bastoni, I., Cappelli, S., Castelnuovo, Gianluca, Brigidi, P., Scacchi, M., Mauro, A., Castelnuovo G. (ORCID:0000-0003-2633-9822), Scarpina, F., Turroni, S., Mambrini, S., Barone, M., Cattaldo, S., Mai, S., Prina, E., Bastoni, I., Cappelli, S., Castelnuovo, Gianluca, Brigidi, P., Scacchi, M., Mauro, A., and Castelnuovo G. (ORCID:0000-0003-2633-9822)

Abstract

The microbiota–gut–brain axis extends beyond visceral perception, influencing higher-order brain structures, and ultimately psychological functions, such as fear processing. In this exploratory pilot study, we attempted to provide novel experimental evidence of a relationship between gut microbiota composition and diversity, and fear-processing in obesity, through a behavioral approach. Women affected by obesity were enrolled and profiled for gut microbiota, through 16S rRNA amplicon sequencing. Moreover, we tested their ability to recognize facial fearful expressions through an implicit-facial-emotion-recognition task. Finally, a traditional self-report questionnaire was used to assess their temperamental traits. The participants exhibited an unbalanced gut microbiota profile, along with impaired recognition of fearful expressions. Interestingly, dysbiosis was more severe in those participants with altered behavioral performance, with a decrease in typically health-associated microbes, and an increase in the potential pathobiont, Collinsella. Moreover, Collinsella was related to a lower expression of the persistence temperamental trait, while a higher expression of the harm-avoidance temperament, related to fear-driven anxiety symptoms, was linked to Lactobacillus. Once confirmed, our findings could pave the way for the design of innovative microbiome-based strategies for the treatment of psychological and emotional difficulties by mitigating obesity-related consequences and behaviors.

Published
2022

16. Gut microbiome in DLBCL patients undergoing first‐line R‐CHOP regimen—The Oncopassport Study.

Author

Stefoni, V., Argnani, L., Casadei, B., Musuraca, G., Nanni, L., Pellegrini, C., Broccoli, A., Carella, M., Caldarulo, E., Mammoli, F., Conti, G., Turroni, S., Barone, M., Brigidi, P., and Zinzani, P. L.

Subjects
GUT microbiome, DIFFUSE large B-cell lymphomas, ANTINEOPLASTIC combined chemotherapy protocols
Abstract

Gut microbiome in DLBCL patients undergoing first-line R-CHOP regimen - The Oncopassport Study Reconstructing GM dynamics in DLBCL patients from diagnosis to the end of R-CHOP may provide important information for patient management. B Introduction: b The search of biomarkers that can predict and influence treatment outcomes of diffuse large B-cell lymphoma (DLBCL) is constantly evolving, especially in the front-line setting. [Extracted from the article]

Published
2023
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18. Habitual diet selects distinct genetic and functional subtypes of intestinal Prevotella copri

Author

De Filippis F., PASOLLI, EDOARDO, Tett A., De Angelis M., Neviani E., Turroni S., Cocolin L., Gobbetti M., Segata N., Ercolini D., 7th International Human Microbiome Consortium Meeting 2018 Organising Committee, De Filippis, F., Pasolli, Edoardo, Tett, A., De Angelis, M., Neviani, E., Turroni, S., Cocolin, L., Gobbetti, M., Segata, N., and Ercolini, D.

Published
2018

19. Early gut microbiota signature of aGvHD in children given allogeneic hematopoietic cell transplantation for hematological disorders

Author

Biagi, E., Zama, D., Rampelli, S., Turroni, S., Brigidi, P., Consolandi, C., Severgnini, M., Picotti, E., Gasperini, P., Merli, P., Decembrino, N., Zecca, M., Cesaro, S., Faraci, M., Prete, A., Locatelli, Franco, Pession, A., Candela, M., Masetti, R., Locatelli F. (ORCID:0000-0002-7976-3654), Biagi, E., Zama, D., Rampelli, S., Turroni, S., Brigidi, P., Consolandi, C., Severgnini, M., Picotti, E., Gasperini, P., Merli, P., Decembrino, N., Zecca, M., Cesaro, S., Faraci, M., Prete, A., Locatelli, Franco, Pession, A., Candela, M., Masetti, R., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Background: The onset of acute Graft-versus-Host Disease (aGvHD) has been correlated with the gut microbiota (GM) composition, but experimental observations are still few, mainly involving cohorts of adult patients. In the current scenario where fecal microbiota transplantation has been used as a pioneer therapeutic approach to treat steroid-refractory aGvHD, there is an urgent need to expand existing observational studies of the GM dynamics in Hematopoietic Stem Cell Transplantation (HSCT). Aim of the present study is to explore the GM trajectory in 36 pediatric HSCT recipients in relation to aGvHD onset. Methods: Thirty-six pediatric patients, from four transplantation centers, undergoing HSCT were enrolled in the study. Stools were collected at three time points: before HSCT, at time of engraftment and > 30 days following HSCT. Changes in the GM phylogenetic structure were studied by 16S rRNA gene Illumina sequencing and phylogenetic assignation. Results: Children developing gut aGvHD had a dysbiotic GM layout before HSCT occurred. This putative aGvHD-predisposing ecosystem state was characterized by (i) reduced diversity, (ii) lower Blautia content, (iii) increase in Fusobacterium abundance. At time of engraftment, the GM structure underwent a deep rearrangement in all patients but, regardless of the occurrence of aGvHD and its treatment, it reacquired a eubiotic configuration from day 30. Conclusions: We found a specific GM signature before HSCT predictive of subsequent gut aGvHD occurrence. Our data may open the way to a GM-based stratification of the risk of developing aGvHD in children undergoing HSCT, potentially useful also to identify patients benefiting from prophylactic fecal transplantation.

Published
2019

20. ll microbiota intestinale come fattore di rischio dello sviluppo di aGVHD gastrointestinale in pazienti pediatrici sottoposti a trapianto allogenico di cellule staminali ematopoietiche

Author

Zama, D., Biagi, E., Rampelli, S., Turroni, S., Brigidi, P., Consolandi, C., Severgnini, M., Landi, E., Bossu, G., Carella, M., Merli, P., Decembrino, N., Zecca, M., Cesaro, S., Faraci, M., Prete, A., Locatelli, F., Pession, A., Candela, M., and R. Masetti. I.

Subjects
complicanze intestinali, microbiota, trapianto, microbiota, complicanze intestinali, trapianto
Published
2018

22. The bottlenose dolphin (Tursiops truncatus) fecal microbiota

Author

Soverini M, Quercia S, Biancani B, Furlati S, Turroni S, Biagi E, Consolandi C, Peano C, Severgnini M, Rampelli S, Brigidi P, and Candela M.

Subjects
digestive system, 16S rDNA, Tursiops truncatus, cetacea, evolution, fecal microbiota, mammalia
Abstract

Cetaceans have evolved from herbivorous terrestrial artiodactyls closely related to ruminants and hippopotamuses. Delphinidae, a family included in this order, represent an extreme and successful re-adaptation of mammalian physiology to the marine habitat and piscivorous diet. The anatomical aspects of Delphinidae success are well understood, whereas some physiological aspects of their environmental fitness are less defined, such as the gut microbiota composition and its adaptation to their dietary niche. Here, we explored the fecal microbiota structure of nine adult bottlenose dolphins (Tursiops truncatus) and one breast-fed calf living in a controlled environment. According to our findings, dolphins possess a unique microbiota profile within the Mammalia class, highly resembling that of carnivorous marine fishes. The breast-fed calf showed a distinctive compositional structure of the gut microbial ecosystem, which partially overlaps with the mother's milk microbiota. Taken together, our data indicate that in dolphins the adaptation to the marine niche and piscivorous diet involved the convergence of their gut microbiota structure with that of marine fishes, overcoming the gut microbiota phylogenetic inertia previously described in terrestrial mammalians.

Published
2016

23. The Typhoid Toxin Promotes Host Survival and the Establishment of a Persistent Asymptomatic Infection

Author

Del Bel Belluz, L. Guidi, R. Pateras, I.S. Levi, L. Mihaljevic, B. Rouf, S.F. Wrande, M. Candela, M. Turroni, S. Nastasi, C. Consolandi, C. Peano, C. Tebaldi, T. Viero, G. Gorgoulis, V.G. Krejsgaard, T. Rhen, M. Frisan, T.

Abstract

Bacterial genotoxins, produced by several Gram-negative bacteria, induce DNA damage in the target cells. While the responses induced in the host cells have been extensively studied in vitro, the role of these effectors during the course of infection remains poorly characterized. To address this issue, we assessed the effects of the Salmonella enterica genotoxin, known as typhoid toxin, in in vivo models of murine infection. Immunocompetent mice were infected with isogenic S. enterica, serovar Typhimurium (S. Typhimurium) strains, encoding either a functional or an inactive typhoid toxin. The presence of the genotoxic subunit was detected 10 days post-infection in the liver of infected mice. Unexpectedly, its expression promoted the survival of the host, and was associated with a significant reduction of severe enteritis in the early phases of infection. Immunohistochemical and transcriptomic analysis confirmed the toxin-mediated suppression of the intestinal inflammatory response. The presence of a functional typhoid toxin further induced an increased frequency of asymptomatic carriers. Our data indicate that the typhoid toxin DNA damaging activity increases host survival and favours long-term colonization, highlighting a complex cross-talk between infection, DNA damage response and host immune response. These findings may contribute to understand why such effectors have been evolutionary conserved and horizontally transferred among Gram-negative bacteria. © 2016 Del Bel Belluz et al.

Published
2016

24. Interaction between gut microbiome and immune checkpoint inhibitor treatment in lymphoma patients: Final results of the MICRO‐LINF study.

Author

Casadei, B., Argnani, L., Guadagnuolo, S., Nanni, L., Pellegrini, C., Broccoli, A., Carella, M., Stefoni, V., Conti, G., Turroni, S., Barone, M., Brigidi, P., and Zinzani, P. L.

Subjects
IMMUNE checkpoint inhibitors, GUT microbiome, CANCER treatment, IPILIMUMAB
Abstract

B Conclusions: b Recognizing patient-related factors that may influence response and toxicity to ICIs is becoming critical to optimize the treatment pathway of heavily pretreated, young patients with a potentially long-life expectancy. Three patients developed 6 hematological toxicities and 18 patients developed 58 extra-hematological toxicities; 4 patients had SAE, of which 2 were judged as drug related. We hypothesize that GM dynamics in lymphoma patients during ICIs therapy correlate with treatment response and toxicities. [Extracted from the article]

Published
2023
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25. Early colonisation and temporal dynamics of the gut microbial ecosystem in Standardbred foals.

Author

Quercia, S., Freccero, F., Castagnetti, C., Soverini, M., Turroni, S., Biagi, E., Rampelli, S., Lanci, A., Mariella, J., Chinellato, E., Brigidi, P., and Candela, M.

Abstract

Summary: Background: Even if horses strictly depend on the gut microbiota for energy homeostasis, only a few molecular studies have focused on its characterisation and none on the perinatal gut microbial colonisation process. Objectives: To explore the perinatal colonisation process of the foal gut microbial ecosystem and the temporal dynamics of the ecosystem assembly during the first days of life. Study design: Longitudinal study. Methods: Thirteen Standardbred mare‐foal pairs were included in the study. For each pair, at delivery we collected the mare amniotic fluid, faeces and colostrum, and the foal meconium. Milk samples and faeces of both mare and foal were also taken longitudinally, until day 10 post‐partum. Samples were analysed by means of next‐generation sequencing of the 16S rRNA gene on Illumina MiSeq. Results: Our findings suggest that microbial components derived from the mare symbiont communities establishes in the foal gut since fetal life. After birth, an external transmission route of mare microorganisms takes place. This involves a rapid and dynamic process of assembling the mature foal gut microbiome, in which the founder microbial species are derived from both the milk and the gut microbial ecosystems of the mare. Main limitations: The inability to discriminate between live and dead cells, the possible presence of contaminating bacteria in low biomass samples (e.g. meconium and amniotic fluid), the limits of the phylogenetic assignment down to species level, and the presence of unassigned operational taxonomic units. Conclusions: Our data highlight the importance of mare microbiomes as a key factor for the establishment of the gut microbial ecosystem of the foal. [ABSTRACT FROM AUTHOR]

Published
2019
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28. A novel combined approach based on HTF-Microbi. Array and qPCR for a reliable characterization of the Bifidobacterium-dominated gut microbiota of breast-fed infants

Author

Centanni M (a), Turroni S (a), Biagi E (a), Severgnini M (b), Consolandi C (b), Brigidi P (a), and Candela M (a)

Subjects
fluids and secretions, digestive system
Abstract

The High Taxonomic Fingerprint (HTF)-Microbi. Array is a fully validated phylogenetic microarray platform for a high taxonomic level characterization of the human gut microbiota. However, suffering from PCR-dependent biases in Bifidobacterium quantification, this tool is less appropriate when utilized for the characterization of the Bifidobacterium-dominated gut microbiota of breast-fed infants. To overcome this, we implemented a new combined approach based on HTF-Microbi. Array and qPCR for a reliable fingerprint of the infant-type microbiota. This methodology was applied in a preliminary comparative study of the faecal microbiota of eight breast-fed infants, aged 2-6 months, and five young adults. Whereas the adult gut microbiota was largely dominated by Firmicutes and Bacteroidetes, the infant-type community was mainly dominated by Bifidobacterium, with Enterobacteriaceae as the second dominant component. In accordance with the most recent literature in the field, the obtained microbiota fingerprints properly depicted the adult- and the infant-type microbiota, demonstrating the reliability of the HTF-Microbi. Array/qPCR combined approach in reflecting the peculiarities of the two intestinal microbial ecosystems. © 2013 Federation of European Microbiological Societies.

Published
2013

35. Identification and characterization of human observational studies in nutritional epidemiology on gut microbiomics for joint data analysis

Author

Pinart, Mariona, Nimptsch, Katharina, Forslund, Sofia, Schlicht, Kristina, Gueimonde, Miguel, Brigidi, Patrizia, Turroni, Silvia, Ahrens, Wolfgang, Hebestreit, Antje, Wolters, Maike, Dötsch, Andreas, Nöthlings, Ute, Oluwagbemigun, Kolade, Cuadrat, Rafael, Schulze, Matthias, Standl, Marie, Schloter, Michael, De Angelis, Maria, Iozzo, Patricia, Guzzardi, Maria Angela, Vlaemynck, Geertrui, Penders, John, Jonkers, Daisy, Stemmer, Maya, Chiesa, Giulia, Cavalieri, Duccio, De Filippo, Carlotta, Ercolini, Danilo, De Filippis, Francesca, Ribet, David, Achamrah, Najate, Tavolacci, Marie-Pierre, Déchelotte, Pierre, Bouwman, Jildau, Laudes, Matthias, Pischon, Tobias, Pinart M., Nimptsch K., Forslund S.K., Schlicht K., Gueimonde M., Brigidi P., Turroni S., Ahrens W., Hebestreit A., Wolters M., Dotsch A., Nothlings U., Oluwagbemigun K., Cuadrat R.R.C., Schulze M.B., Standl M., Schloter M., De Angelis M., Iozzo P., Guzzardi M.A., Vlaemynck G., Penders J., Jonkers D.M.A.E., Stemmer M., Chiesa G., Cavalieri D., De Filippo C., Ercolini D., De Filippis F., Ribet D., Achamrah N., Tavolacci M.-P., Dechelotte P., Bouwman J., Laudes M., Pischon T., Molecular Epidemiology Research Group, Max Delbrück Center for Molecular Medicine in the Helmholtz Association (MDC), 13125 Berlin, Germany, Experimental and Clinical Research Center, A Cooperation of Charité-Universitätsmedizin Berlin and Max Delbrück Center for Molecular Medicine, Lindenberger Weg 80, 13125 Berlin, Germany, Charité-Universitätsmedizin Berlin, Corporate Member of Freie Universität Berlin, Humboldt-Universität zu Berlin, Berlin Institute of Health, 10117 Berlin, Germany, Host-Microbiome Factors in Cardiovascular Disease Lab, Max Delbrück Center for Molecular Medicine in the Helmholtz Association, 13125 Berlin, Germany, German Centre for Cardiovascular Research (DZHK), Partner Site Berlin, 10785 Berlin, Germany, Berlin Institute of Health (BIH), 10178 Berlin, Germany, Structural and Computational Biology Unit, European Molecular Biology Laboratory, 69117 Heidelberg, Germany, Institute of Diabetes and Clinical Metabolic Research, University of Kiel, 24105 Kiel, Germany, Department of Microbiology and Biochemistry of Dairy Products, IPLA-CSIC, 33300 Villaviciosa, Spain, Diet, Microbiota and Health Group, Instituto de Investigación Sanitaria del Principado de Asturias (ISPA), 33011 Oviedo, Spain, Department of Medical and Surgical Sciences, University of Bologna, Via Massarenti 9, 40138 Bologna, Italy, Department of Pharmacy and Biotechnology, University of Bologna, Via Belmeloro 6, 40126 Bologna, Italy, Leibniz Institute for Prevention Research and Epidemiology-BIPS, 28359 Bremen, Germany, Institute of Statistics, Bremen University, 28359 Bremen, Germany, Department of Physiology and Biochemistry of Nutrition, Max Rubner-Institut (MRI)-Federal Research Institute of Nutrition and Food, 76131 Karlsruhe, Germany, Nutritional Epidemiology Unit, Institute of Nutrition and Food Sciences, University of Bonn, 53115 Bonn, Germany, Department of Molecular Epidemiology, German Institute of Human Nutrition Potsdam-Rehbruecke, 14558 Nuthetal, Germany, Institute of Nutritional Science, University of Potsdam, 14558 Potsdam, Germany, German Center for Diabetes Research (DZD), 85764 Neuherberg, Germany, Institute of Epidemiology, Helmholtz Zentrum München-German Research Center for Environmental Health, 85764 Neuherberg, Germany, Research Unit for Comparative Microbiome Analysis, Helmholtz Zentrum München-German Research Center for Environmental Health, 85764 Neuherberg, Germany, Department of Soil, Plant and Food Sciences, University of Bari Aldo Moro, 70126 Bari, Italy, Institute of Clinical Physiology, National Research Council, Via Moruzzi 1, 56124 Pisa, Italy, Department Technology and Food, Flanders Research Institute for Agriculture, Fisheries and Food, 9090 Melle, Belgium, Department of Medical Microbiology, School of Nutrition and Translational Research in Metabolism (NUTRIM) and Care and Public Health Research Institute (CAPHRI), Maastricht University Medical Center, 6200 MD Maastricht, The Netherlands, Department of Internal Medicine, Division Gastroenterology-Hepatology, NUTRIM School of Nutrition and Translational Research in Metabolism, Maastricht University Medical Center, 6200 MD Maastricht, The Netherlands, Department of Industrial Engineering and Management, Ben-Gurion University of the Negev, Beer-Sheva P.O. Box 653, Israel, Department of Pharmacological and Biomolecular Sciences, Università degli Studi di Milano, 20133 Milan, Italy, Department of Biology, University of Florence, Via Madonna del Piano 6, 50019 Florence, Italy, Institute of Agricultural Biology and Biotechnology National Research Council, Via Moruzzi 1, 56124 Pisa, Italy, Department of Agricultural Sciences, University of Naples Federico II, 80055 Portici, Italy, Task Force on Microbiome Studies, University of Naples Federico II, 80134 Naples, Italy, Nutrition, inflammation et dysfonctionnement de l'axe intestin-cerveau (ADEN), Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Normandie Université (NU)-Institut National de la Santé et de la Recherche Médicale (INSERM), Institute for Research and Innovation in Biomedicine (IRIB), Normandie Université (NU)-Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM), UNIROUEN - UFR Santé (UNIROUEN UFR Santé), Normandie Université (NU)-Normandie Université (NU), Service de nutrition [CHU Rouen], Normandie Université (NU)-Normandie Université (NU)-CHU Rouen, Normandie Université (NU), Centre d'Investigation Clinique [CHU Rouen] (CIC Rouen), Hôpital Charles Nicolle [Rouen]-CHU Rouen, Normandie Université (NU)-Normandie Université (NU)-Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Institut National de la Santé et de la Recherche Médicale (INSERM), Microbiology and Systems Biology Group, TNO, Utrechtseweg 48, 3704 HE Zeist, The Netherlands, Biobank Technology Platform, Max Delbrück Center for Molecular Medicine in the Helmholtz Association (MDC), 13125 Berlin, Germany, Biobank Core Facility, Berlin Institute of Health at Charité-Universitätsmedizin Berlin, 10178 Berlin, Germany, European Commission, Fonds de la Recherche Scientifique (Fédération Wallonie-Bruxelles), Research Foundation - Flanders, Institut National de la Santé et de la Recherche Médicale (France), Federal Ministry of Education and Research (Germany), Federal Ministry of Food and Agriculture (Germany), Ministero dell'Istruzione, dell'Università e della Ricerca, Ministero delle Politiche Agricole Alimentari e Forestali, National Institutes of Health (US), Ministero della Salute, Instituto de Salud Carlos III, Netherlands Organisation for Health Research and Development, Austrian Research Promotion Agency, Federal Ministry of Education, Science and Research (Austria), Ministry of Science, Technology and Space (Israel), Swedish Research Council for Sustainable Development, German Research Foundation, RS: CAPHRI - R4 - Health Inequities and Societal Participation, Med Microbiol, Infect Dis & Infect Prev, RS: NUTRIM - R2 - Liver and digestive health, Interne Geneeskunde, Pinart, M., Nimptsch, K., Forslund, S. K., Schlicht, K., Gueimonde, M., Brigidi, P., Turroni, S., Ahrens, W., Hebestreit, A., Wolters, M., Dotsch, A., Nothlings, U., Oluwagbemigun, K., Cuadrat, R. R. C., Schulze, M. B., Standl, M., Schloter, M., De Angelis, M., Iozzo, P., Guzzardi, M. A., Vlaemynck, G., Penders, J., Jonkers, D. M. A. E., Stemmer, M., Chiesa, G., Cavalieri, D., De Filippo, C., Ercolini, D., De Filippis, F., Ribet, D., Achamrah, N., Tavolacci, M. -P., Dechelotte, P., Bouwman, J., Laudes, M., Pischon, T., Humboldt-Universität zu Berlin, and CHU Rouen

Subjects
Nutritional Sciences, Metabolome, Metadata, Data sharing, Observational studies, Data integration, Dietary intake, Microbiome, Diet Surveys, Article, Eating, Nutritional Science, AGE, Humans, TX341-641, observational studies, Nutrition. Foods and food supply, Information Dissemination, Nutrition Survey, Nutrition Surveys, Observational studie, Gastrointestinal Microbiome, Diet Survey, Europe, Observational Studies as Topic, Cardiovascular and Metabolic Diseases, Data Integration, Data Sharing, Dietary Intake, Observational Studies, Technology Platforms, [SDV.AEN]Life Sciences [q-bio]/Food and Nutrition, Human
Abstract

In any research field, data access and data integration are major challenges that even large, well-established consortia face. Although data sharing initiatives are increasing, joint data analyses on nutrition and microbiomics in health and disease are still scarce. We aimed to identify observational studies with data on nutrition and gut microbiome composition from the Intestinal Microbiomics (INTIMIC) Knowledge Platform following the findable, accessible, interoperable, and reusable (FAIR) principles. An adapted template from the European Nutritional Phenotype Assessment and Data Sharing Initiative (ENPADASI) consortium was used to collect microbiome-specific information and other related factors. In total, 23 studies (17 longitudinal and 6 cross-sectional) were identified from Italy (7), Germany (6), Netherlands (3), Spain (2), Belgium (1), and France (1) or multiple countries (3). Of these, 21 studies collected information on both dietary intake (24 h dietary recall, food frequency questionnaire (FFQ), or Food Records) and gut microbiome. All studies collected stool samples. The most often used sequencing platform was Illumina MiSeq, and the preferred hypervariable regions of the 16S rRNA gene were V3–V4 or V4. The combination of datasets will allow for sufficiently powered investigations to increase the knowledge and understanding of the relationship between food and gut microbiome in health and disease., This research was supported by the Joint Action “European Joint Programming Initiative “A Healthy Diet for a Healthy Life” (JPI HDHL)”and the respective national/regional funding organisations: Fund for Scientific Research (FRS—FNRS, Belgium); Research Foundation—Flanders (FWO, Belgium); INSERM Institut National de la Santé et de la Recherche Médicale (France); Federal Ministry of Education and Research (BMBF, FKZ 01EA1906B, 01EA1906D); Federal Ministry of Food and Agriculture (BMEL) through the Federal Office for Agriculture and Food (BLE, Germany, grant number 2819ERA10F); Ministry of Education, University and Research (MIUR), Ministry of agricultural, food and forestry policies (MiPAAF), National Institute of Health (ISS) on behalf of Ministry of Health (Italy); National Institute of Health Carlos III (Spain); The Netherlands Organisation for Health Research and Development (ZonMw, The Netherlands), Austrian Research Promotion Agency (FFG) on behalf of the Austrian Federal Ministry for Education, Science and Research (BMBWF), Ministry of Science and Technology (Israel), Formas (Sweden). This research was also supported by the German Research Foundation (DFG, KFO339: “food@”).

Published
2021
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36. Distribution of Antibiotic Resistance Genes in the Saliva of Healthy Omnivores, Ovo-Lacto-Vegetarians, and Vegans

Author

Danilo Ercolini, Raffaella Di Cagno, Andrea Osimani, Silvia Turroni, Francesca De Filippis, Camilla Lazzi, Stefano Tavoletti, Lucia Aquilanti, Vesna Milanović, Ilario Ferrocino, Francesca Clementi, Cristiana Garofalo, Nicoletta Pellegrini, Milanovic V., Aquilanti L., Tavoletti S., Garofalo C., Osimani A., De Filippis F., Ercolini D., Ferrocino I., Di Cagno R., Turroni S., Lazzi C., Pellegrini N., Clementi F., Milanovic, V., Aquilanti, L., Tavoletti, S., Garofalo, C., Osimani, A., De Filippis, F., Ercolini, D., Ferrocino, I., Di Cagno, R., Turroni, S., Lazzi, C., Pellegrini, N., and Clementi, F.

Subjects
Adult, DNA, Bacterial, Male, 0301 basic medicine, Saliva, Adolescent, lcsh:QH426-470, 030106 microbiology, Antibiotic resistance gene, Dietary habit, Article, Microbiology, Cohort Studies, Young Adult, 03 medical and health sciences, Antibiotic resistance, antibiotic resistance genes, stomatognathic system, human saliva, Genetics, medicine, Humans, Gene, dietary habits, Genetics (clinical), Vegans, Bacteria, biology, human salivary resistome, Drug Resistance, Microbial, Middle Aged, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Healthy Volunteers, Anti-Bacterial Agents, Diet, Resistome, lcsh:Genetics, 030104 developmental biology, Antibiotic resistance genes, Dietary habits, Human saliva, Human salivary resistome, Oral cavity, Vancomycin, Female, oral cavity, Omnivore, Nested polymerase chain reaction, Vegetarians, medicine.drug
Abstract

Food consumption allows the entrance of bacteria and their antibiotic resistance (AR) genes into the human oral cavity. To date, very few studies have examined the influence of diet on the composition of the salivary microbiota, and even fewer investigations have specifically aimed to assess the impact of different long-term diets on the salivary resistome. In this study, the saliva of 144 healthy omnivores, ovo-lacto-vegetarians, and vegans were screened by nested PCR for the occurrence of 12 genes conferring resistance to tetracyclines, macrolide-lincosamide-streptogramin B, vancomycin, and &beta, lactams. The tet(W), tet(M), and erm(B) genes occurred with the highest frequencies. Overall, no effect of diet on AR gene distribution was seen. Some differences emerged at the recruiting site level, such as the higher frequency of erm(C) in the saliva of the ovo-lacto-vegetarians and omnivores from Bologna and Turin, respectively, and the higher occurrence of tet(K) in the saliva of the omnivores from Bologna. A correlation of the intake of milk and cheese with the abundance of tet(K) and erm(C) genes was seen. Finally, when the occurrence of the 12 AR genes was evaluated along with geographical location, age, and sex as sources of variability, high similarity among the 144 volunteers was seen.

Published
2020

37. Diet influences the functions of the human intestinal microbiome

Author

De Angelis, Maria, Ferrocino, Ilario, Calabrese, Francesco Maria, De Filippis, Francesca, Cavallo, Noemi, Siragusa, Sonya, Rampelli, Simone, Di Cagno, Raffaella, Rantsiou, Kalliopi, Vannini, Lucia, Pellegrini, Nicoletta, Lazzi, Camilla, Turroni, Silvia, Lorusso, Nicola, Ventura, Mario, Chieppa, Marcello, Neviani, Erasmo, Brigidi, Patrizia, O’Toole, Paul W., Ercolini, Danilo, Gobbetti, Marco, Cocolin, Luca, De Angelis M., Ferrocino I., Calabrese F.M., De Filippis F., Cavallo N., Siragusa S., Rampelli S., Di Cagno R., Rantsiou K., Vannini L., Pellegrini N., Lazzi C., Turroni S., Lorusso N., Ventura M., Chieppa M., Neviani E., Brigidi P., O'Toole P.W., Ercolini D., Gobbetti M., Cocolin L., De Angelis, M., Ferrocino, I., Calabrese, F. M., De Filippis, F., Cavallo, N., Siragusa, S., Rampelli, S., Di Cagno, R., Rantsiou, K., Vannini, L., Pellegrini, N., Lazzi, C., Turroni, S., Lorusso, N., Ventura, M., Chieppa, M., Neviani, E., Brigidi, P., O'Toole, P. W., Ercolini, D., Gobbetti, M., Cocolin, L., De Angelis, Maria, Ferrocino, Ilario, Maria Calabrese, Francesco, De Filippis, Francesca, Cavallo, Noemi, Siragusa, Sonya, Rampelli, Simone, Di Cagno, Raffaella, Rantsiou, Kalliopi, Vannini, Lucia, Pellegrini, Nicoletta, Lazzi, Camilla, Turroni, Silvia, Lorusso, Nicola, Ventura, Mario, Chieppa, Marcello, Neviani, Erasmo, Brigidi, Patrizia, W O'Toole, Paul, Ercolini, Danilo, Gobbetti, Marco, and Cocolin, Luca

Subjects
Tumor, Nitrogen, lcsh:R, lcsh:Medicine, Computational Biology, Article, Cell Line, Diet, Gastrointestinal Microbiome, Feces, Cell Line, Tumor, Humans, Metabolic Networks and Pathways, Metagenome, Metagenomics, lcsh:Q, Microbiome, lcsh:Science
Abstract

Gut microbes programme their metabolism to suit intestinal conditions and convert dietary components into a panel of small molecules that ultimately affect host physiology. To unveil what is behind the effects of key dietary components on microbial functions and the way they modulate host–microbe interaction, we used for the first time a multi-omic approach that goes behind the mere gut phylogenetic composition and provides an overall picture of the functional repertoire in 27 fecal samples from omnivorous, vegan and vegetarian volunteers. Based on our data, vegan and vegetarian diets were associated to the highest abundance of microbial genes/proteins responsible for cell motility, carbohydrate- and protein-hydrolyzing enzymes, transport systems and the synthesis of essential amino acids and vitamins. A positive correlation was observed when intake of fiber and the relative fecal abundance of flagellin were compared. Microbial cells and flagellin extracted from fecal samples of 61 healthy donors modulated the viability of the human (HT29) colon carcinoma cells and the host response through the stimulation of the expression of Toll-like receptor 5, lectin RegIIIα and three interleukins (IL-8, IL-22 and IL-23). Our findings concretize a further and relevant milestone on how the diet may prevent/mitigate disease risk.

Published
2020

38. A natural-like synthetic small molecule impairs bcr-abl signaling cascades and induces megakaryocyte differentiation in erythroleukemia cells

Author

Marinella Roberti, Antonietta Di Cristina, Patrizia Brigidi, Manlio Tolomeo, Gianfranco Mamone, Elisa Giacomini, Maurizio Recanatini, Stefania Grimaudo, Gianluca Picariello, Rosaria Maria Pipitone, Silvia Turroni, Turroni S., Tolomeo M., Mamone G., Picariello G., Giacomini E., Brigidi P., Roberti M., Grimaudo S., Pipitone R.M., Di Cristina A., Recanatini M., Turroni, S, Tolomeo, M, Mamone, G, Picariello, G, Giacomini, E, Brigidi, P, Roberti, M, Grimaudo, S, Pipitone, R, Di Cristina, A, and Recanatini, M

Subjects
Cell signaling, Proteome, Megakaryocyte differentiation, Cellular differentiation, Fusion Proteins, bcr-abl, lcsh:Medicine, Biology, Proteomics, Small Molecule Libraries, bi- and ter-phenyls,antiproliferative, pro-apoptotic, differentiating activity, leukemia, Molecular Cell Biology, Chemical Biology, Biomarkers, Tumor, Cluster Analysis, Humans, network analysi, RNA, Messenger, lcsh:Science, Cell Shape, Multidisciplinary, Gene Expression Regulation, Leukemic, Effector, Systems Biology, lcsh:R, leukemia, Reproducibility of Results, HNF4-alpha, Hematology, Molecular biology, Neoplasm Proteins, Chemistry, cell differentiation, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Multivariate Analysis, Medicine, EGR1, PROTEOMICS, lcsh:Q, Leukemia, Erythroblastic, Acute, Medicinal Chemistry, Signal transduction, K562 Cells, Megakaryocytes, Research Article, Signal Transduction, K562 cells
Abstract

Over the past years, we synthesized a series of new molecules that are hybrids of spirocyclic ketones as complexity-bearing cores with bi- and ter-phenyls as privileged fragments. Some of these newly-shaped small molecules showed antiproliferative, pro-apoptotic and differentiating activity in leukemia cell lines. In the present study, to investigate more in depth the mechanisms of action of these molecules, the protein expression profiles of K562 cells treated with or without the compounds IND_S1, MEL_T1, IND_S7 and MEL_S3 were analyzed using two-dimensional gel electrophoresis coupled with mass spectrometry. Proteome comparisons revealed several differentially expressed proteins, mainly related to cellular metabolism, chaperone activity, cytoskeletal organization and RNA biogenesis. The major results were validated by Western blot and qPCR. To attempt integrating findings into a cellular signaling context, proteomic data were explored using MetaCore. Network analysis highlighted relevant relationships between the identified proteins and additional potential effectors. Notably, qPCR validation of central hubs showed that the compound MEL_S3 induced high mRNA levels of the transcriptional factors EGR1 and HNF4-alpha; the latter to our knowledge is reported here for the first time to be present in K562 cells. Consistently with the known EGR1 involvement in the regulation of differentiation along megakaryocyte lineage, MEL_S3-treated leukemia cells showed a marked expression of glycoprotein IIb/IIIa (CD41) and glycoprotein Ib (CD42), two important cell markers in megakaryocytic differentiation, together with morphological aspects of megakaryoblasts and megakaryocytes.

Published
2013

39. Gut microbiome in pediatric acute leukemia: from predisposition to cure

Author

Edoardo Muratore, Davide Leardini, Riccardo Masetti, Andrea Pession, Susanna Esposito, Silvia Turroni, Daniele Zama, Patrizia Brigidi, Masetti R., Muratore E., Leardini D., Zama D., Turroni S., Brigidi P., Esposito S., and Pession A.

Subjects
medicine.drug_class, medicine.medical_treatment, Lymphoblastic Leukemia, Antibiotics, Hematopoietic stem cell transplantation, Review Article, Bioinformatics, medicine, Humans, Cause of death, Acute leukemia, business.industry, Microbiota, Hematopoietic Stem Cell Transplantation, Cancer, Sequela, Hematology, Precursor Cell Lymphoblastic Leukemia-Lymphoma, medicine.disease, Gut microbiome, Gastrointestinal Microbiome, Leukemia, Myeloid, Acute, business, Human
Abstract

The gut microbiome (GM) has emerged as a key factor in the genesis and progression of many diseases. The intestinal bacterial composition also influences treatment-related side effects and even the efficacy of oncological therapies. Acute leukemia (AL) is the most common cancer among children and the most frequent cause of cancer-related death during childhood. Outcomes have improved considerably over the past 4 decades, with the current long-term survival for acute lymphoblastic leukemia being ∼90%. However, several acute toxicities and long-term sequelae are associated with the multimodal therapy protocols applied in these patients. Specific GM configurations could contribute to the multistep developmental hypothesis for leukemogenesis. Moreover, GM alterations occur during the AL therapeutic course and are associated with treatment-related complications, especially during hematopoietic stem cell transplantation. The GM perturbation could last even after the removal of microbiome-modifying factors, like antibiotics, chemotherapeutic drugs, or alloimmune reactions, contributing to several health-related issues in AL survivors. The purpose of this article is to provide a comprehensive review of the chronological changes of GM in children with AL, from predisposition to cure. The underpinning biological processes and the potential interventions to modulate the GM toward a potentially health-promoting configuration are also highlighted.

Published
2021

40. Wholegrain fermentation affects gut microbiota composition, phenolic acid metabolism and pancreatic beta cell function in a rodent model of type 2 diabetes

Author

Adele Costabile, Giulia Corona, Kittiwadee Sarnsamak, Daphna Atar-Zwillenberg, Chesda Yit, Aileen J. King, David Vauzour, Monica Barone, Silvia Turroni, Patrizia Brigidi, Astrid C. Hauge-Evans, Costabile A., Corona G., Sarnsamak K., Atar-Zwillenberg D., Yit C., King A.J., Vauzour D., Barone M., Turroni S., Brigidi P., and Hauge-Evans A.C.

Subjects
Microbiology (medical), polyphenol, wholegrain, microbiota, pancreatic beta cell, type 2 diabetes, Microbiology
Abstract

The intestinal microbiota plays an important role in host metabolism via production of dietary metabolites. Microbiota imbalances are linked to type 2 diabetes (T2D), but dietary modification of the microbiota may promote glycemic control. Using a rodent model of T2D and an in vitro gut model system, this study investigated whether differences in gut microbiota between control mice and mice fed a high-fat, high-fructose (HFHFr) diet influenced the production of phenolic acid metabolites following fermentation of wholegrain (WW) and control wheat (CW). In addition, the study assessed whether changes in metabolite profiles affected pancreatic beta cell function. Fecal samples from control or HFHFr-fed mice were fermented in vitro with 0.1% (w/v) WW or CW for 0, 6, and 24 h. Microbiota composition was determined by bacterial 16S rRNA sequencing and phenolic acid (PA) profiles by UPLC-MS/MS. Cell viability, apoptosis and insulin release from pancreatic MIN6 beta cells and primary mouse islets were assessed in response to fermentation supernatants and selected PAs. HFHFr mice exhibited an overall dysbiotic microbiota with an increase in abundance of proteobacterial taxa (particularly Oxalobacteraceae) and Lachnospiraceae, and a decrease in Lactobacillus. A trend toward restoration of diversity and compositional reorganization was observed following WW fermentation at 6 h, although after 24 h, the HFHFr microbiota was monodominated by Cupriavidus. In parallel, the PA profile was significantly altered in the HFHFr group compared to controls with decreased levels of 3-OH-benzoic acid, 4-OH-benzoic acid, isoferulic acid and ferulic acid at 6 h of WW fermentation. In pancreatic beta cells, exposure to pre-fermentation supernatants led to inhibition of insulin release, which was reversed over fermentation time. We conclude that HFHFr mice as a model of T2D are characterized by a dysbiotic microbiota, which is modulated by the in vitro fermentation of WW. The differences in microbiota composition have implications for PA profile dynamics and for the secretory capacity of pancreatic beta cells.

Published
2022
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41. Editorial: Manipulation of gut microbiota as a key target to intervene on the onset and progression of digestive system diseases

Author

Ding, Shi, Silvia, Turroni, Lan, Gong, Wenrui, Wu, Howard Chi Ho, Yim, Shi D., Turroni S., Gong L., Wu W., and Yim H.C.H.

Subjects
digestive system disease, gut microbiota, treatment, fecal microbiota transplantation, General Medicine, prognosi
Abstract

Editorial on the Research Topic Manipulation of gut microbiota as a key target to intervene on the onset and progression of digestive system diseases

Published
2022
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42. The Core Human Microbiome: Does It Exist and How Can We Find It? A Critical Review of the Concept

Author

Itai Sharon, Narciso Martín Quijada, Edoardo Pasolli, Marco Fabbrini, Francesco Vitali, Valeria Agamennone, Andreas Dötsch, Evelyne Selberherr, José Horacio Grau, Martin Meixner, Karsten Liere, Danilo Ercolini, Carlotta de Filippo, Giovanna Caderni, Patrizia Brigidi, Silvia Turroni, Sharon, Itai, Mart('(i))n Quijada, Narciso, Pasolli, Edoardo, Fabbrini, Marco, Vitali, Francesco, Agamennone, Valeria, Dã¶tsch, Andrea, Selberherr, Evelyne, Horacio Grau, Jos('(e)), Meixner, Martin, Liere, Karsten, Ercolini, Danilo, de Filippo, Carlotta, Caderni, Giovanna, Brigidi, Patrizia, Turroni, Silvia, Sharon I., Quijada N.M., Pasolli E., Fabbrini M., Vitali F., Agamennone V., Dotsch A., Selberherr E., Grau J.H., Meixner M., Liere K., Ercolini D., de Filippo C., Caderni G., Brigidi P., and Turroni S.

Subjects
virome, Nutrition and Dietetics, Microbiota, omic, prokaryote, Sequence Analysis, DNA, Dysbiosi, Gastrointestinal Microbiome, immune system, NGS sequencing, Metagenomic, eukaryote, gut, Dysbiosis, Humans, healthy microbiome, Metagenomics, diet, Food Science, core microbiome, Human
Abstract

The core microbiome, which refers to a set of consistent microbial features across populations, is of major interest in microbiome research and has been addressed by numerous studies. Understanding the core microbiome can help identify elements that lead to dysbiosis, and lead to treatments for microbiome-related health states. However, defining the core microbiome is a complex task at several levels. In this review, we consider the current state of core human microbiome research. We consider the knowledge that has been gained, the factors limiting our ability to achieve a reliable description of the core human microbiome, and the fields most likely to improve that ability. DNA sequencing technologies and the methods for analyzing metagenomics and amplicon data will most likely facilitate higher accuracy and resolution in describing the microbiome. However, more effort should be invested in characterizing the microbiome’s interactions with its human host, including the immune system and nutrition. Other components of this holobiontic system should also be emphasized, such as fungi, protists, lower eukaryotes, viruses, and phages. Most importantly, a collaborative effort of experts in microbiology, nutrition, immunology, medicine, systems biology, bioinformatics, and machine learning is probably required to identify the traits of the core human microbiome.

Published
2022

43. Analysis of microbiome in gastrointestinal stromal tumors: Looking for different players in tumorigenesis and novel therapeutic options

Author

Gloria Ravegnini, Bruno Fosso, Riccardo Ricci, Francesca Gorini, Silvia Turroni, Cesar Serrano, Daniel F. Pilco‐Janeta, Qianqian Zhang, Federica Zanotti, Mariangela De Robertis, Margherita Nannini, Maria Abbondanza Pantaleo, Patrizia Hrelia, Sabrina Angelini, Institut Català de la Salut, [Ravegnini G, Gorini F, Turroni S] Department of Pharmacy and Biotechnology, University of Bologna, Bologna, Italy. [Fosso B] Institute of Biomembranes, Bioenergetics and Molecular Biotechnologies (IBIOM), National Research Council, Bari, Italy. Department of Biosciences, Biotechnology and Biopharmaceutics (DBBB), University of Bari 'A. Moro', Bari, Italy. [Ricci R] Department of Pathology, Catholic University, Rome, Italy. [Serrano C] Laboratori de Recerca Translacional de Sarcoma, Vall d’Hebron Hospital Universitari, Barcelona, Spain. [Pilco-Janeta DF] Laboratori de Recerca Translacional de Sarcoma, Vall d’Hebron Hospital Universitari, Barcelona, Spain. Department of Pathology, Brigham and Women's Hospital and Harvard Medical School, Boston, Massachusetts, USA, Vall d'Hebron Barcelona Hospital Campus, Ravegnini, Gloria, Fosso, Bruno, Ricci, Riccardo, Gorini, Francesca, Turroni, Silvia, Serrano, Cesar, Pilco-Janeta, Daniel F., Zhang, Qianqian, Zanotti, Federica, De Robertis, Mariangela, Nannini, Margherita, Pantaleo, Maria Abbondanza, Hrelia, Patrizia, and Angelini, Sabrina

Subjects
tumor evolution, Cancer Research, Gastrointestinal Stromal Tumors, Tub digestiu - Tumors, microbiome, fenómenos microbiológicos::microbiota [FENÓMENOS Y PROCESOS], Neoplasms::Neoplasms by Site::Digestive System Neoplasms::Gastrointestinal Neoplasms [DISEASES], neoplasias::neoplasias por localización::neoplasias del sistema digestivo::neoplasias gastrointestinales [ENFERMEDADES], Gastrointestinal Stromal Tumor, Humans, carcinogenesi, Intestins - Microbiologia, microGIST, Gastrointestinal Neoplasms, Digestive System Diseases::Digestive System Diseases::Gastrointestinal Diseases::Gastrointestinal Neoplasms::Gastrointestinal Stromal Tumors [DISEASES], Microbiota, enfermedades del sistema digestivo::enfermedades del sistema digestivo::enfermedades gastrointestinales::neoplasias gastrointestinales::tumores del estroma gastrointestinal [ENFERMEDADES], General Medicine, Proto-Oncogene Proteins c-kit, Cell Transformation, Neoplastic, Oncology, Gastrointestinal Neoplasm, Mutation, Microbiological Phenomena::Microbiota [PHENOMENA AND PROCESSES], Aparell digestiu - Càncer, GIST, Human
Abstract

Carcinogenesis; Microbiome; Tumor evolution Carcinogènesi; Microbioma; Evolució del tumor Carcinogénesis; Microbioma; Evolución del tumor Preclinical forms of gastrointestinal stromal tumor (GIST), small asymptomatic lesions, called microGIST, are detected in approximately 30% of the general population. Gastrointestinal stromal tumor driver mutation can be already detected in microGISTs, even if they do not progress into malignant cancer; these mutations are necessary, but insufficient events to foster tumor progression. Here we profiled the tissue microbiota of 60 gastrointestinal specimens in three different patient cohorts—micro, low-risk, and high-risk or metastatic GIST—exploring the compositional structure, predicted function, and microbial networks, with the aim of providing a complete overview of microbial ecology in GIST and its preclinical form. Comparing microGISTs and GISTs, both weighted and unweighted UniFrac and Bray–Curtis dissimilarities showed significant community-level separation between them and a pronounced difference in Proteobacteria, Firmicutes, and Bacteroidota was observed. Through the LEfSe tool, potential microbial biomarkers associated with a specific type of lesion were identified. In particular, GIST samples were significantly enriched in the phylum Proteobacteria compared to microGISTs. Several pathways involved in sugar metabolism were also highlighted in GISTs; this was expected as cancer usually displays high aerobic glycolysis in place of oxidative phosphorylation and rise of glucose flux to promote anabolic request. Our results highlight that specific differences do exist in the tissue microbiome community between GIST and benign lesions and that microbiome restructuration can drive the carcinogenesis process. Francesca Goriini and Federica Zanotti have been supported by Fondazione Cassa di Risparmio di Bologna.

Published
2022

44. Nutraceuticals in the Modulation of the Intestinal Microbiota: Current Status and Future Directions

Author

Enzo Spisni, Silvia Turroni, Patrizia Alvisi, Renato Spigarelli, Demetrio Azzinnari, Dario Ayala, Veronica Imbesi, Maria Chiara Valerii, Spisni E., Turroni S., Alvisi P., Spigarelli R., Azzinnari D., Ayala D., Imbesi V., and Valerii M.C.

Subjects
Pharmacology, probiotics, postbiotic, prebiotic, microbiota, phytotherapy, Pharmacology (medical), bacteria, immunomodulation, essential oil
Abstract

Pharmaceutical interest in the human intestinal microbiota has increased considerably, because of the increasing number of studies linking the human intestinal microbial ecology to an increasing number of non-communicable diseases. Many efforts at modulating the gut microbiota have been made using probiotics, prebiotics and recently postbiotics. However, there are other, still little-explored opportunities from a pharmaceutical point of view, which appear promising to obtain modifications of the microbiota structure and functions. This review summarizes all in vitro, in vivo and clinical studies demonstrating the possibility to positively modulate the intestinal microbiota by using probiotics, prebiotics, postbiotics, essential oils, fungus and officinal plants. For the future, clinical studies investigating the ability to impact the intestinal microbiota especially by using fungus, officinal and aromatic plants or their extracts are required. This knowledge could lead to effective microbiome modulations that might support the pharmacological therapy of most non-communicable diseases in a near future.

Published
2022
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45. Febrile Neutropenia Duration Is Associated with the Severity of Gut Microbiota Dysbiosis in Pediatric Allogeneic Hematopoietic Stem Cell Transplantation Recipients

Author

Riccardo Masetti, Federica D’Amico, Daniele Zama, Davide Leardini, Edoardo Muratore, Marek Ussowicz, Jowita Fraczkiewicz, Simone Cesaro, Giulia Caddeo, Vincenza Pezzella, Tamara Belotti, Francesca Gottardi, Piero Tartari, Patrizia Brigidi, Silvia Turroni, Arcangelo Prete, Masetti R., D'amico F., Zama D., Leardini D., Muratore E., Ussowicz M., Fraczkiewicz J., Cesaro S., Caddeo G., Pezzella V., Belotti T., Gottardi F., Tartari P., Brigidi P., Turroni S., and Prete A.

Subjects
Cancer Research, febrile neutropenia, surgical procedures, operative, Oncology, gut microbiome, hematopoietic stem cell transplantation, Akkermasia
Abstract

Febrile neutropenia (FN) is a common complication in pediatric patients receiving allogeneic hematopoietic stem cell transplantation (HSCT). Frequently, a precise cause cannot be identified, and many factors can contribute to its genesis. Gut microbiota (GM) has been recently linked to many transplant-related complications, and may also play a role in the pathogenesis of FN. Here, we conducted a longitudinal study in pediatric patients receiving HSCT from three centers in Europe profiling their GM during the transplant course, particularly at FN onset. We found that a more stable GM configuration over time is associated with a shorter duration of fever. Moreover, patients with longer lasting fever exhibited higher pre-HSCT levels of Collinsella, Megasphaera, Prevotella and Roseburia and increased proportions of Eggerthella and Akkermansia at the engraftment. These results suggest a possible association of the GM with the genesis and course of FN. Data seem consistent with previous reports on the relationship of a so-called “healthy” GM and the reduction of transplant complications. To our knowledge, this is the first report in the pediatric HSCT setting. Future studies are warranted to define the underling biological mechanisms and possible clinical implications.

Published
2022

46. Oral Lactoferrin Supplementation during Induction Chemotherapy Promotes Gut Microbiome Eubiosis in Pediatric Patients with Hematologic Malignancies

Author

Federica D’Amico, Nunzia Decembrino, Edoardo Muratore, Silvia Turroni, Paola Muggeo, Rosamaria Mura, Katia Perruccio, Virginia Vitale, Marco Zecca, Arcangelo Prete, Francesco Venturelli, Davide Leardini, Patrizia Brigidi, Riccardo Masetti, Simone Cesaro, Daniele Zama, D'Amico F., Decembrino N., Muratore E., Turroni S., Muggeo P., Mura R., Perruccio K., Vitale V., Zecca M., Prete A., Venturelli F., Leardini D., Brigidi P., Masetti R., Cesaro S., and Zama D.

Subjects
eubiosi, gut microbiota, pediatrics, Pharmaceutical Science, lactoferrin, chemotherapy, hematologic malignancies, oral supplementation, eubiosis, acute lymphoblastic leukemia, hematologic malignancie
Abstract

Induction chemotherapy is the first-line treatment for pediatric patients with hematologic malignancies. However, several complications may arise, mainly infections and febrile neutropenia, with a strong impact on patient morbidity and mortality. Such complications have been shown to be closely related to alterations of the gut microbiome (GM), making the design of strategies to foster its eubiosis of utmost clinical importance. Here, we evaluated the impact of oral supplementation of lactoferrin (LF), a glycoprotein endowed with anti-inflammatory, immunomodulatory and antimicrobial activities, on GM dynamics in pediatric oncohematologic patients during induction chemotherapy. Specifically, we conducted a double blind, placebo-controlled trial in which GM was profiled through 16S rRNA gene sequencing before and after two weeks of oral supplementation with LF or placebo. LF was safely administered with no adverse effects and promoted GM homeostasis by favoring the maintenance of diversity and preventing the bloom of pathobionts (e.g., Enterococcus). LF could, therefore, be a promising adjunct to current therapeutic strategies in these fragile individuals to reduce the risk of GM-related complications.

Published
2022

47. Early-life gut microbiota and neurodevelopment in preterm infants: any role for Bifidobacterium?

Author

Patrizia Brigidi, Silvia Turroni, Elena Biagi, Monica Barone, Isadora Beghetti, Alessandra Sansavini, Luigi Corvaglia, Arianna Aceti, Beghetti I., Barone M., Turroni S., Biagi E., Sansavini A., Brigidi P., Corvaglia L., and Aceti A.

Subjects
Neurodevelopment, Physiology, Context (language use), Very low birth weight, Gut flora, digestive system, Feces, fluids and secretions, Medicine, Humans, Microbiome, Child, Bifidobacterium, Gut microbiome, biology, business.industry, Infant, Newborn, Infant, biology.organism_classification, medicine.disease, Gastrointestinal Microbiome, Low birth weight, Child, Preschool, Pediatrics, Perinatology and Child Health, Preterm infant, Biomarker (medicine), Dysbiosis, medicine.symptom, business, Neurocognitive, Infant, Premature
Abstract

Despite the well-recognized importance of proper gut microbiota assembly for the child's future health, the connections between the early-life gut microbiota and neurocognitive development in humans have not been thoroughly explored so far. In this pilot observational study, we aimed to unveil the relation between dynamic succession of the gut microbiota in very low birth weight infants during the first month of life and their neurodevelopment, assessed at 24-month corrected age. According to our data, the early-life gut microbiota of preterm infants with normal vs. impaired neurodevelopment followed distinct temporal trajectories with peculiar compositional rearrangements. In this context, early Bifidobacterium deficiency appears to be a negative biomarker of adverse neurological outcomes.Conclusion: Our data might pave the way for future in-depth studies focusing on the potential impact of bifidobacteria or specific microbiota patterns on neonatal neurodevelopment and lay the foundation for microbiome-based clinical practices to modulate altered profiles and improve long-term health. What is Known: • Preterm infants are at increased risk for adverse neurological outcomes and gut microbiota dysbiosis. • The gut microbiota and the nervous system share critical developmental windows in early life. What is New: • The absence of Bifidobacterium at 30 days of life in preterm infants is associated with neurodevelopmental impairment in early childhood. • The administration of Bifidobacterium strains could promote optimal neurocognitive development in fragile infants.

Published
2022

48. Effect of Exercise on Inflammation in Hemodialysis Patients: A Systematic Review

Author

Erika Meléndez Oliva, Jorge H. Villafañe, Jose Luis Alonso Pérez, Alexandra Alonso Sal, Guillermo Molinero Carlier, Andrés Quevedo García, Silvia Turroni, Oliver Martínez-Pozas, Norberto Valcárcel Izquierdo, Eleuterio A. Sánchez Romero, Melendez Oliva E., Villafane J.H., Alonso Perez J.L., Alonso Sal A., Molinero Carlier G., Quevedo Garcia A., Turroni S., Martinez-Pozas O., Valcarcel Izquierdo N., and Sanchez Romero E.A.

Subjects
Tratamiento médico, Fallo renal crónico, exercise, hemodialysi, Sistema endocrino, inflammation, Terapia por ejercicio, Medicine (miscellaneous), Deporte, chronic kidney disease, Diálisis renal
Abstract

Background: In recent years, physical exercise has been investigated for its potential as a therapeutic tool in patients with end-stage renal disease (ESRD) undergoing hemodialysis maintenance treatment (HD). It has been shown that regular practice of moderate-intensity exercise can improve certain aspects of immune function and exert anti-inflammatory effects, having been associated with low levels of pro-inflammatory cytokines and high levels of anti-inflammatory cytokines. Purpose: The aim of this review is to examine the studies carried out in this population that analyzed the effect of intradialytic exercise on the inflammatory state and evaluate which exercise modality is most effective. Methods: The search was carried out in the MEDLINE, CINAHL Web of Science and Cochrane Central Register of Controlled Trials databases from inception to June 2022. The PEDro scale was used to assess methodological quality, and the Cochrane Risk of Bias Tool and MINORS were used to evaluate the risk of bias. The quality of evidence was assessed with GRADE scale. The outcome measures were systemic inflammation biomarkers. Results: Mixed results were found in terms of improving inflammation biomarkers, such as CRP, IL-6 or TNFα, after exercise. Aerobic exercise seems to improve systemic inflammation when performed at medium intensity while resistance training produced better outcomes when performed at high intensity. However, some studies reported no differences after exercise and these results should be taken with caution. Conclusions: The low quality of the evidence suggests that aerobic and resistance exercise during HD treatment improves systemic inflammation biomarkers in patients with ESRD. In any case, interventions that increase physical activity in patients with ESRD are of vital importance as sedentary behaviors are associated with mortality. More studies are needed to affirm solid conclusions and to make intervention parameters, such as modality, dose, intensity or duration, sufficiently clear. Universidad Europea de Canarias 3.508 JCR (2021) Q2, 42/109 Health Care Siences & Services 0.757 SJR (2021) Q2, 753/2489 Medicine (miscellaneous) No data IDR 2021 UEC UEM

Published
2022

49. Searching for New Microbiome-Targeted Therapeutics through a Drug Repurposing Approach

Author

Sine Mandrup Bertozzi, Marco Candela, Monica Barone, Patrizia Brigidi, Andrea Armirotti, Silvia Turroni, Andrea Cavalli, Elena Biagi, Simone Rampelli, Federico Falchi, Barone M., Rampelli S., Biagi E., Bertozzi S.M., Falchi F., Cavalli A., Armirotti A., Brigidi P., Turroni S., and Candela M.

Subjects
High-Throughput Screening Assay, Chemistry, Gene Expression Profiling, digestive, oral, and skin physiology, Healthy subjects, Drug Repositioning, Structural diversity, Computational biology, Validation Studies as Topic, Gut microbiome, Gastrointestinal Microbiome, High-Throughput Screening Assays, Drug repositioning, Human gut, Drug Discovery, Molecular Medicine, Humans, Microbiome, Repurposing, Human
Abstract

Commonly used non-antibiotic drugs have been associated with changes in gut microbiome composition, paving the way for the possibility of repurposing FDA-approved molecules as next-generation microbiome therapeutics. Herein, we developed and validated an ex vivo high-throughput screening platform─the mini gut model─to underpin human gut microbiome response to molecular modulators. Ten FDA-approved compounds, selected based on maximum structural diversity of molecular fingerprints, were screened against the gut microbiome of five healthy subjects to characterize the ability of human-targeted drugs to modulate the human gut microbiome network. Three compounds, THIP hydrochloride, methenamine, and mesna, have shown promise as novel gut microbiome therapeutics in light of their capability of promoting health-associated features of the gut microbiome. Our findings provide a resource for future research on drug-microbiome interactions and lay the foundation for a new era of more precise gut microbiome modulation through drug repurposing, aimed at targeting specific dysbiotic events.

Published
2021

50. An Abnormal Host/Microbiomes Signature of Plasma-Derived Extracellular Vesicles Is Associated to Polycythemia Vera

Author

Monica Barone, Martina Barone, Francesca Ricci, Giuseppe Auteri, Giulia Corradi, Francesco Fabbri, Valentina Papa, Erika Bandini, Giovanna Cenacchi, Pier Luigi Tazzari, Nicola Vianelli, Silvia Turroni, Michele Cavo, Francesca Palandri, Marco Candela, Lucia Catani, Barone M., Ricci F., Auteri G., Corradi G., Fabbri F., Papa V., Bandini E., Cenacchi G., Tazzari P.L., Vianelli N., Turroni S., Cavo M., Palandri F., Candela M., and Catani L.

Subjects
Cancer Research, microbial DNA cargo, Microbial DNA, gut microbiota, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Biology, Brief Research Report, medicine.disease, Pathogenesis, Haematopoiesis, Polycythemia vera, medicine.anatomical_structure, Megakaryocyte, polycythemia vera, Oncology, Immunology, medicine, cancer, extracellular vesicle, Myelofibrosis, extracellular vesicles, Dysbiosis, RC254-282, Myeloproliferative neoplasm
Abstract

Polycythemia Vera (PV) is a myeloproliferative neoplasm with increased risk of thrombosis and progression to myelofibrosis. Chronic inflammation is commonly observed in myeloproliferative neoplasms including PV. The inflammatory network includes the extracellular vesicles (EVs), which play a role in cell-cell communication. Recent evidence points to circulating microbial components/microbes as potential players in hemopoiesis regulation. To address the role of EVs in PV, here we investigated phenotype and microbial DNA cargo of circulating EVs through multidimensional analysis. Peripheral blood and feces were collected from PV patients (n=38) and healthy donors (n=30). Circulating megakaryocyte (MK)- and platelet (PLT)-derived EVs were analyzed by flow cytometry. After microbial DNA extraction from feces and isolated EVs, the 16S rDNA V3-V4 region was sequenced. We found that the proportion of circulating MK-derived EVs was significantly decreased in PV patients as compared with the healthy donors. By contrast, the proportion of the PLT-derived EVs was increased. Interestingly, PV was also associated with a microbial DNA signature of the isolated EVs with higher diversity and distinct microbial composition than the healthy counterparts. Of note, increased proportion of isolated lipopolysaccharide-associated EVs has been demonstrated in PV patients. Conversely, the gut microbiome profile failed to identify a distinct layout between PV patients and healthy donors. In conclusion, PV is associated with circulating EVs harbouring abnormal phenotype and dysbiosis signature with a potential role in the (inflammatory) pathogenesis of the disease.

Published
2021
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