Your search keyword '"Arioli S"' showing total 1,355 results

1. The Ability of Streptococcus thermophilus BT01 to Modulate Urease Activity in Healthy Subjects' Fecal Samples Depends on the Biomass Production Process.

Author

Martinović A, Chittaro M, Mora D, and Arioli S

Subjects

Adult, Humans, Animals, Biomass, Cross-Over Studies, Healthy Volunteers, Milk, Streptococcus thermophilus genetics, Urease genetics

Abstract

Scope: This study evaluates how manufacturing conditions of probiotic biomass production, using two different cryoprotectants, Cryo-A and Cryo-B, can affect Streptococcus thermophilus BT01 in vivo gastrointestinal tract survival and its ability to modulate the level of urease activity in fecal samples of healthy subjects., Methods and Results: A randomized controlled cross-over study is carried out on 20 adult healthy subjects to evaluate total and viable loads, persistence of S. thermophilus BT01, and urease activity in fecal samples. Strain-specific quantification by using developed culture-based method and molecular qPCR tool allows to quantify viable S. thermophilus BT01 strain in 90% of the subjects. The quantification of both total DNA and recovered viable S. thermophilus BT01 in fecal samples does not reveal significant differences between Cryo-A or Cryo-B treated biomass. However, the administration of S. thermophilus BT01 produced with Cryo-A results in a decreased urease activity in fecal samples compared to Cryo-B protected cells., Conclusion: This study i) highlights how the manufacturing conditions can play a role in influencing the probiotic functionality in vivo and ii) represents the first evidence that links S. thermophilus to a specific probiotic mechanism, the reduction of urease activity in fecal samples., (© 2023 The Authors. Molecular Nutrition & Food Research published by Wiley-VCH GmbH.)

Published

2023

2. Substitution of Asp29 with Asn29 in the metallochaperone UreE of Streptococcus thermophilus DSM 20617 T increases the urease activity and anticipates urea hydrolysis during milk fermentation.

Author

Arioli S, Mangieri N, Zanchetta Y, Russo P, and Mora D

Subjects

Animals, Metallochaperones metabolism, Carrier Proteins genetics, Nickel metabolism, Hydrolysis, Milk metabolism, Urea, Fermentation, Bacterial Proteins genetics, Urease genetics, Streptococcus thermophilus metabolism

Abstract

Urease operon is highly conserved within the species Streptococcus thermophilus and urease-negative strains are rare in nature. S. thermophilus MIMO1, isolated from commercial yogurt, was previously characterized as urease-positive Ni-dependent strain. Beside a mutation in ureQ, coding for a nickel ABC transporter permease, the strain MIMO1 showed a mutation in ureE gene which code for a metallochaperone involved in Ni delivery to the urease catalytic site. The single base mutation in ureE determined a substitution of Asp 29 with Asn 29 in the metallochaperone in a conserved protein region not involved in the catalytic activity. With the aim to investigate the role Asp 29 vs Asn 29 substitution in UreE on the urease activity of S. thermophilus, ureE gene of the reference strain DSM 20617 T (ureE DSM20617 ) was replaced by ureE gene of strain MIMO1 (ureE MIMO1 ) to obtain the recombinant ES3. In-gel detection of urease activity revealed that the substitution of Asp 29 with Asn 29 in UreE resulted in a higher stability of the enzyme complexes. Moreover, the recombinant ES3 showed higher level of urease activity compared to the wildtype without any detectable increase in the expression level of ureC gene, thus highlighting the role of UreE not only in Ni assembly but also on the level of urease activity. During the growth in milk, the recombinant ES3 showed an anticipated urease activity compared to the wildtype, and analogous milk fermentation performance. The overall data obtained by comparing urease-positive and urease-negative strains/mutants confirmed that urease activity strongly impacts on the milk fermentation process and specifically on the yield of the homolactic fermentation., Competing Interests: Declaration of competing interest None., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

3. Setup of a rapid method to distinguish among dead, alive, and viable but not cultivable cells of Pseudomonas spp. in mozzarella cheese

Author

Caldera, L., Arioli, S., Stuknytė, M., Scarpellini, M., and Franzetti, L.

Published

2015

4. Effect of a multi-strain probiotic mixture consumption on anxiety and depression symptoms induced in adult mice by postnatal maternal separation.

Author

De Santa F, Strimpakos G, Marchetti N, Gargari G, Torcinaro A, Arioli S, Mora D, Petrella C, and Farioli-Vecchioli S

Subjects

Mice, Male, Animals, Maternal Deprivation, Anxiety therapy, Brain, Mammals, Depression drug therapy, Probiotics therapeutic use, Probiotics pharmacology

Abstract

Background: Intestinal microbial composition not only affects the health of the gut but also influences centrally mediated systems involved in mood, through the "gut-brain" axis, a bidirectional communication between gut microbiota and the brain. In this context, the modulation of intestinal microbiota and its metabolites through the administration of probiotics seems to represent a very promising approach in the treatment of the central nervous system alterations. Early postnatal life is a critical period during which the brain undergoes profound and essential modulations in terms of maturation and plasticity. Maternal separation (MS), i.e., the disruption of the mother-pup interaction, represents a pivotal paradigm in the study of stress-related mood disorders, by inducing persistent changes in the immune system, inflammatory processes, and emotional behavior in adult mammals., Results: We conducted experiments to investigate whether sustained consumption of a multi-strain probiotic formulation by adult male mice could mitigate the effects of maternal separation. Our data demonstrated that the treatment with probiotics was able to totally reverse the anxiety- and depressive-like behavior; normalize the neuro-inflammatory state, by restoring the resting state of microglia; and finally induce a proneurogenic effect. Mice subjected to maternal separation showed changes in microbiota composition compared to the control group that resulted in permissive colonization by the administered multi-strain probiotic product. As a consequence, the probiotic treatment also significantly affected the production of SCFA and in particular the level of butyrate., Conclusion: Gut microbiota and its metabolites mediate the therapeutic action of the probiotic mix on MS-induced brain dysfunctions. Our findings extend the knowledge on the use of probiotics as a therapeutic tool in the presence of alterations of the emotional sphere that significantly impact on gut microbiota composition. Video Abstract., (© 2024. The Author(s).)

Published

2024

5. Recycling Food Waste and Saving Water: Optimization of the Fermentation Processes from Cheese Whey Permeate to Yeast Oil

Author

Donzella, S., Andrea, F., Arioli, S., Pellegrino, L.M., D'Incecco, P., Molinari, F.E., Speranza, G., Daniela, U., Robescu, M.S., and Compagno, C.M.

Subjects

Cutaneotrichosporon oleaginosus, lipid production, whey permeate, fermentation optimization, flow cytometry, Settore CHIM/11 - Chimica e Biotecnologia delle Fermentazioni, Settore AGR/15 - Scienze e Tecnologie Alimentari, Settore CHIM/06 - Chimica Organica, Settore AGR/16 - Microbiologia Agraria

Published

2022

6. Hyper-Osmotic Stress Elicits Membrane Depolarization and Decreased Permeability in Halotolerant Marine Debaryomyces hansenii Strains and in Saccharomyces cerevisiae

Author

Capusoni C., Arioli S., Donzella S., Guidi B., Serra I., Compagno C., Capusoni, C, Arioli, S, Donzella, S, Guidi, B, Serra, I, and Compagno, C

Subjects

Marine microorganism, Debaryomyces hansenii, membrane depolarization, Osmotic stre, flow cytometry, bioprocesses, lcsh:QR1-502, Saccharomyces cerevisiae, Microbiology, lcsh:Microbiology, membrane permeability, osmotic stress, Bioprocesse, Original Research, marine microorganisms

Abstract

The use of seawater and marine microorganisms can represent a sustainable alternative to avoid large consumption of freshwater performing industrial bioprocesses. Debaryomyces hansenii, which is a known halotolerant yeast, possess metabolic traits appealing for developing such processes. For this purpose, we studied salt stress exposure of two D. hansenii strains isolated from marine fauna. We found that the presence of sea salts during the cultivation results in a slight decrease of biomass yields. Nevertheless, higher concentration of NaCl (2 M) negatively affects other growth parameters, like growth rate and glucose consumption rate. To maintain an isosmotic condition, the cells accumulate glycerol as compatible solute. Flow cytometry analysis revealed that the osmotic adaptation causes a reduced cellular permeability to cell-permeant dye SYBR Green I. We demonstrate that this fast and reversible phenomenon is correlated to the induction of membrane depolarization, and occurred even in presence of high concentration of sorbitol. The decrease of membrane permeability induced by osmotic stress confers to D. hansenii resistance to cationic drugs like Hygromycin B. In addition, we describe that also in Saccharomyces cerevisiae the exposure to hyper-osmotic conditions induced membrane depolarization and reduced the membrane permeability. These aspects are very relevant for the optimization of industrial bioprocesses, as in the case of fermentations and bioconversions carried out by using media/buffers containing high nutrients/salts concentrations. Indeed, an efficient transport of molecules (nutrients, substrates, and products) is the prerequisite for an efficient cellular performance, and ultimately for the efficiency of the industrial process.

Published

2019

7. Survival of L. casei DG ® (Lactobacillus paracasei CNCMI1572) in the gastrointestinal tract of a healthy paediatric population.

Author

Radicioni M, Koirala R, Fiore W, Leuratti C, Guglielmetti S, and Arioli S

Subjects

Child, Child, Preschool, Feces microbiology, Female, Humans, Male, Gastrointestinal Tract metabolism, Lacticaseibacillus paracasei metabolism, Probiotics administration & dosage, Probiotics metabolism

Abstract

Purpose: Ability to survive the digestive process is a major factor in determining the effectiveness of a probiotic. In this study, the ability of the probiotic L. casei DG ® (Lactobacillus paracasei CNCMI1572) to survive gastrointestinal transit in healthy children was investigated for the first time., Methods: Twenty children aged 3-12 years received L. casei DG ® as drinkable solution of 1 × 10 9 colony forming units (CFU), once daily for 7 consecutive days. Recovery in faecal samples was evaluated at baseline and at different time-points during and after administration. Defecation frequency, faeces consistency, digestive function and product safety were also assessed., Results: Nineteen (95%) of the 20 enrolled children presented viable L. casei DG ® cells in their faeces at least once during the study, with a maximum count (mean 4.3 log 10 CFU/g ± 2.3) reached between day 4 and 6 from the beginning of consumption. Notably, for 11 (57.9%) of the 19 children with viable cells, L. casei DG ® survived in faecal samples up to 3 days after treatment end. Defecation frequency, faeces consistency and digestive function did not change considerably during or after study treatment. Safety of the study product was very good., Conclusions: This study showed for the first time that L. casei DG ® survives the gastrointestinal transit when ingested by children with a paediatric probiotic drinkable solution containing 1 × 10 9 CFU, and persists in the gut up to 3 days after the end of product intake, demonstrating resistance to gastric juices, hydrolytic enzymes and bile acids.

Published

2019

8. Use of kefir-derived lactic acid bacteria for the preparation of a fermented soy drink with increased estrogenic activity.

Author

Mantegazza G, Dalla Via A, Licata A, Duncan R, Gardana C, Gargari G, Alamprese C, Arioli S, Taverniti V, Karp M, and Guglielmetti S

Subjects

Humans, Bacteria, Dietary Supplements, Glycine max, Kefir microbiology, Lactobacillales genetics, Soy Milk

Abstract

Fermented foods are receiving growing attention for their health promoting properties. In particular, there is a growing demand for plant-based fermented foods as dairy alternatives. Considering that soy is a vegetal food rich in nutrients and a source of the phytoestrogen isoflavones, the aim of this study was to select safe food microorganisms with the ability to ferment a soy drink resulting in a final product with an increased estrogenic activity and improved functional properties. We used milk kefir grains, a dairy source of microorganisms with proven health-promoting properties, as a starting inoculum for a soymilk. After 14 passages of daily inoculum in fresh soy drink, we isolated four lactic acid bacterial strains: Lactotoccus lactis subsp. lactis K03, Leuconostc pseudomesenteroides K05, Leuconostc mesenteroides K09 and Lentilactobacillus kefiri K10. Isolated strains were proven to be safe for human consumption according to the assessment of their antibiotic resistance profile and comparative genomics. Furthermore, functional characterization of the bacterial strains demonstrated their ability to ferment sugars naturally present in soybeans and produce a creamy texture. In addition, we demonstrated, by means of a yeast-based bioluminescence reporter system, that the two strains belonging to the genus Leuconostoc increased the estrogenic activity of the soybean drink. In conclusion, the proposed application of the bacterial strains characterized in this study meets the growing demand of consumers for health-promoting vegetal food alternatives to dairy products., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

9. Characterization of antibiotic-resistance traits in Akkermansia muciniphila strains of human origin.

Author

Filardi R, Gargari G, Mora D, and Arioli S

Subjects

Humans, Anti-Bacterial Agents pharmacology, Ciprofloxacin, Verrucomicrobia, Akkermansia

Abstract

Akkermansia muciniphila, a commensal bacterium commonly found in healthy gut microbiota, is widely considered a next-generation beneficial bacterium candidate to improve metabolic and inflammatory disorders. Recently the EFSA's Panel on Nutrition, Novel food, and Food Allergens has declared that pasteurized A. muciniphila DSM 22959 T (also Muc T , ATCC BAA-835) can be considered safe as a novel food, opening the door to its commercialization as a food supplement. Despite its recognized health benefits, there is still little information regarding the antimicrobial susceptibility of this species and reference cut-off values to distinguish strains with intrinsic or acquired resistance from susceptible strains. In this study, we combined a genomic approach with the evaluation of the antibiotic susceptibility in five human A. muciniphila isolates. Genomic mining for antimicrobial resistance genes and MICs determinations revealed that only one strain harboring tetW gene showed resistance to tetracycline, whereas all A. muciniphila strains showed low sensitivity to ciprofloxacin and aminoglycosides with no genotypic correlation. Although all strains harbor the gene adeF, encoding for a subunit of the resistance-nodulation-cell division efflux pump system, potentially involved in ciprofloxacin resistance, the susceptibility towards ciprofloxacin determined in presence of efflux pump inhibitors was not affected. Overall, our outcomes revealed the importance to extend the antibiotic susceptibility test to a larger number of new isolates of A. muciniphila to better assess the safety aspects of this species., (© 2022. The Author(s).)

Published

2022

10. Evaluation of the Characteristics and Infectivity of the Secondary Inoculum Produced by Plasmopara viticola on Grapevine Leaves by Means of Flow Cytometry and Fluorescence-Activated Cell Sorting.

Author

Massi F, Marcianò D, Russo G, Stuknytė M, Arioli S, Mora D, and Toffolatti SL

Subjects

Flow Cytometry, Plant Diseases, Plant Leaves, Vitis, Oomycetes

Abstract

Plasmopara viticola , the oomycete causing grapevine downy mildew, is one of the most important pathogens in viticulture. P. viticola is a polycyclic pathogen, able to carry out numerous secondary cycles of infection during a single vegetative grapevine season, by producing asexual spores (zoospores) within sporangia. The extent of these infections is strongly influenced by both the quantity (density) and quality (infectivity) of the inoculum produced by the pathogen. To date, the protocols for evaluating all these characteristics are quite limited and time-consuming and do not allow all the information to be obtained in a single run. In this study, a protocol combining flow cytometry (FCM) and fluorescence-activated cell sorting (FACS) was developed to investigate the composition, the infection efficiency and the dynamics of the inoculum produced by P. viticola for secondary infection cycles. In our analyses, we identified different structures within the inoculum, including degenerated and intact sporangia. The latter have been sorted, and single sporangia were directly inoculated on grapevine leaf discs, thus allowing a thorough investigation of the infection dynamics and efficiency. In detail, we determined that, in our conditions, 8% of sporangia were able to infect the leaves and that on a susceptible variety, the time required by the pathogen to reach 50% of total infection is about 10 days. The analytical approach developed in this study could open a new perspective to shed light on the biology and epidemiology of this important pathogen. IMPORTANCE P. viticola secondary infections contribute significantly to the epidemiology of this important plant pathogen. However, the infection dynamics of asexual spores produced by this organism are still poorly investigated. The main challenges in dissecting the grapevine- P. viticola interaction in vitro are attributable to the biotrophic adaptation of the pathogen. This work provides new insights into the infection efficiency and dynamics imputable to P. viticola sporangia, contributing useful information on grapevine downy mildew epidemiology. Moreover, future applications of the sorting protocol developed in this work could yield a significant and positive impact in the study of P. viticola , providing unmatched resolution, precision, and accuracy compared with the traditional techniques.

Published

2022

11. Live or Heat-Killed Lactobacillus rhamnosus Aerosolization Decreases Adenomatous Lung Cancer Development in a Mouse Carcinogen-Induced Tumor Model.

Author

Le Noci V, Bernardo G, Manenti G, Infante G, Khaleghi Hashemian D, Minoli L, Canesi S, Bianchi F, Triulzi T, Arioli S, De Cecco L, Guglielmetti S, Ambrogi F, Recordati C, Gagliano N, Tagliabue E, Sommariva M, and Sfondrini L

Subjects

Mice, Animals, Carcinogens, Hot Temperature, Disease Models, Animal, Tumor Microenvironment, Lacticaseibacillus rhamnosus, Lung Neoplasms pathology, Probiotics therapeutic use, Probiotics pharmacology, Adenoma

Abstract

An immunosuppressive microenvironment in lung concurs to pre-malignant lesions progression to cancer. Here, we explore if perturbing lung microbiota, which contribute to immunosuppression, by antibiotics or probiotic aerosol interferes with lung cancer development in a mouse carcinogen-induced tumor model. Urethane-injected mice were vancomycin/neomycin (V/N)-aerosolized or live or dead L. rhamnosus GG ( L.RGG )-aerosolized, and tumor development was evaluated. Transcriptional profiling of lungs and IHC were performed. Tumor nodules number, diameter and area were reduced by live or heat-killed L.RGG , while only a decrease in nodule diameter was observed in V/N-treated lungs. Both L.RGG and V/N reduced Tregs in the lung. In L.RGG -treated groups, the gene encoding the joining chain (J chain) of immunoglobulins was increased, and higher J chain protein and IgA levels were observed. An increased infiltration of B, NK and myeloid-derived cells was predicted by TIMER 2.0. The Kaplan-Meier plotter revealed an association between high levels of J chain mRNA and good prognosis in lung adenocarcinoma patients that correlated with increased B and CD4 T cells and reduced Tregs and M2 macrophages. This study highlights L.RGG aerosol efficacy in impairing lung cancer growth by promoting local immunity and points to this non-invasive strategy to treat individuals at risk of lung cancer.

Published

2022

12. Erratum to "Effect of using mycotoxin-detoxifying agents in dairy cattle feed on natural whey starter biodiversity" (J. Dairy Sci. 105:6513-6526).

Author

Morandi S, Cremonesi P, Arioli S, Stocco G, Silvetti T, Biscarini F, Castiglioni B, Greco D, D'Ascanio V, Mora D, and Brasca M

Published

2022

13. Carbamoylphosphate synthetase activity is essential for the optimal growth of Streptococcus thermophilus in milk

Author

Arioli, S., Monnet, C., Guglielmetti, S., and Mora, D.

Published

2009

14. Effect of using mycotoxin-detoxifying agents in dairy cattle feed on natural whey starter biodiversity.

Author

Morandi S, Cremonesi P, Arioli S, Stocco G, Silvetti T, Biscarini F, Castiglioni B, Greco Ç, D'Ascanio V, Mora D, and Brasca M

Subjects

Animal Feed analysis, Animals, Biodiversity, Cattle, DNA, Bacterial analysis, Food Microbiology, Whey chemistry, Whey Proteins analysis, Cheese analysis, Lactobacillus helveticus, Mycotoxins analysis

Abstract

Natural whey cultures (NWC) are undefined multiple-strain bacterial starter communities that can be affected by even small changes along the entire dairy chain. We applied a multidisciplinary approach to investigate how the addition of 2 mycotoxin-detoxifying agents [sodium smectite and lignocellulose-based material (B1); leonardite and betaine (B2)] to cow diets modified the microbiota of the NWC in manufacture of a Grana-like cheese. Microbiological and flow cytometry analyses showed that the content and viability of lactic acid bacteria (LAB) and the total whey microbiota were not affected by the detoxifying agents, and Streptococcus thermophilus, Lactobacillus helveticus, and Limosilactobacillus fermentum were the dominant taxa. Random amplified polymorphic DNA-PCR fingerprinting and metagenomic analysis highlighted differences in the bacterial community of the NWC and in the relative abundance of Bacteroidetes that increased when B1 and B2 were included in the diet. Two of 6 St. thermophilus biotypes were detected only in control samples; conversely, none of the Lb. helveticus biotypes found in control samples were isolated from B1 and B2. In vitro tests showed that the 2 binders did not significantly affect the development of St. thermophilus, but they stimulated the growth of Lb. helveticus strains recovered only from B1 and B2 NWC. The addition of binders in cow feed can affect the LAB biotypes present in NWC., (© 2022, The Authors. Published by Elsevier Inc. and Fass Inc. on behalf of the American Dairy Science Association®. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).)

Published

2022

15. In Streptococcus thermophilus, Ammonia from Urea Hydrolysis Paradoxically Boosts Acidification and Reveals a New Regulatory Mechanism of Glycolysis.

Author

Arioli S, Della Scala G, Martinović A, Scaglioni L, Mazzini S, Volonté F, Pedersen MB, and Mora D

Subjects

Ammonia metabolism, Fermentation, Glycolysis, Hydrogen-Ion Concentration, Hydrolysis, Phosphofructokinases metabolism, Urea metabolism, Streptococcus thermophilus genetics, Urease genetics, Urease metabolism

Abstract

Streptococcus thermophilus is widely used in the dairy industry for the manufacturing of fermented milk and cheeses and probiotic formulations. S. thermophilus evolved from closely phylogenetically related pathogenic streptococci through loss-of-function events counterbalanced by the acquisition of relevant traits, such as lactose and urea utilization for the adaptation to the milk environment. In the context of regressive evolution, the urease gene cluster accounts for 0.9% of the total coding sequence belonging to known functional categories. The fate of ammonia and carbon dioxide derived by urea hydrolysis in several biosynthetic pathways have been depicted, and the positive effect of urease activity on S. thermophilus growth fitness and lactic acid fermentation in milk has been already addressed by several authors. However, the mechanistic effect of urea hydrolysis on the energetic metabolisms of S. thermophilus is still unclear. This study aimed to assess the effect of urease activity on the growth and energy metabolism of Streptococcus thermophilus in milk. In milk, 13 C-urea was completely hydrolyzed in the first 150 min of S. thermophilus growth, and urea hydrolysis was accompanied by an increase in cell density and a reduction in the generation time. By using energetically discharged cells with gene transcription and translation blocked, we showed that in the presence of fermentable carbon sources, urease activity, specifically the production of ammonia, could dramatically boost glycolysis and, in cascade, homolactic fermentation. Furthermore, we showed that ammonia, specifically ammonium ions, were potent effectors of phosphofructokinase, a key glycolytic enzyme. IMPORTANCE Finding that ammonia-generating enzymes, such as urease, and exogenous ammonia act on phosphofructokinase activity shed new light on the regulatory mechanisms that govern glycolysis. Phosphofructokinase is the key enzyme known to exert a regulatory role on glycolytic flux and, therefore, ammonia as an effector of phosphofructokinase acts, in cascade, modulating the glycolytic pathway. Apart from S. thermophilus, due to the high conservation of glycolytic enzymes in all branches of the tree of life and being aware of the role of ammonia as an effector of phosphofructokinase, we propose to reevaluate the physiological role of the ammonia production pathways in all organisms whose energy metabolism is supported by glycolysis.

Published

2022

16. Synergistic Action of Mild Heat and Essential Oil Treatments on Culturability and Viability of Escherichia coli ATCC 25922 Tested In Vitro and in Fruit Juice.

Author

Di Gregorio L, Tchuenchieu A, Poscente V, Arioli S, Del Fiore A, Costanzo M, Giorgi D, Lucretti S, and Bevivino A

Abstract

The strengthening effect of a mild temperature treatment on the antimicrobial efficacy of essential oils has been widely reported, often leading to an underestimation or a misinterpretation of the product’s microbial status. In the present study, both a traditional culture-based method and Flow Cytometry (FCM) were applied to monitor the individual or combined effect of Origanum vulgare essential oil (OEO) and mild heat treatment on the culturability and viability of Escherichia coli in a conventional culture medium and in a fruit juice challenge test. The results obtained in the culture medium showed bacterial inactivation with an increasing treatment temperature (55 °C, 60 °C, 65 °C), highlighting an overestimation of the dead population using the culture-based method; in fact, when the FCM method was applied, the prevalence of injured bacterial cells in a viable but non-culturable (VBNC) state was observed. When commercial fruit juice with a pH of 3.8 and buffered at pH 7.0 was inoculated with E. coli ATCC 25922, a bactericidal action of OEO and a higher efficiency of the mild heat at 65 °C for 5′ combined with OEO were found. Overall, the combination of mild heat and OEO treatment represents a promising antimicrobial alternative to improve the safety of fruit juice.

Published

2022

17. Disclosing Lactobacillus delbrueckii subsp. bulgaricus intraspecific diversity in exopolysaccharides production.

Author

Bancalari E, Gatti M, Bottari B, Mora D, and Arioli S

Subjects

Culture Media, Dairy Products microbiology, Fermentation, Lactobacillus delbrueckii classification, Lactobacillus delbrueckii metabolism, Polysaccharides, Bacterial biosynthesis

Abstract

Exopolysaccharides production by 3 ropy strains of Lactobacillus delbrueckii subsp. bulgaricus of dairy origin was evaluated in synthetic medium by combining different approaches: impedometric measurements, fluorescent microscopy and flow cytometry analyses. The evaluation of ΔE by impedometric measurement (E% max -E% 40h ) allowed the detection of EPS production in synthetic medium, but the differences in EPS production kinetic was highlighted by flow cytometry analysis and fluorescent microcopy. This approach enabled us to unravel the diversity in EPS synthesis and release into the laboratory medium during the growth of the strains. Our results showed that the maximum EPS production occurred after 8 h of incubation, when cells were in late exponential growth phase. Furthermore, flow cytometry analysis revealed that only part of the cell population could be identified as EPS producer or as EPS-bounded cell. Therefore, the combined approach used, allowed us to define at the same time the kinetics of EPS production and release by three strains belonging to the same species and, highlight that the production of EPS depends also on the number of EPS-producing cells within the same population. This approach could be useful for the selection of strains to be used as starter cultures in dairy products where EPS production is considered an important feature., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

18. Author Correction: Listeria monocytogenes sensitivity to antimicrobial treatments depends on cell origin.

Author

Montanari C, Tabanelli G, Barbieri F, Mora D, Duncan R, Gardini F, and Arioli S

Published

2022

19. Postbiotics - when simplification fails to clarify.

Author

Aguilar-Toalá JE, Arioli S, Behare P, Belzer C, Berni Canani R, Chatel JM, D'Auria E, de Freitas MQ, Elinav E, Esmerino EA, García HS, da Cruz AG, González-Córdova AF, Guglielmetti S, de Toledo Guimarães J, Hernández-Mendoza A, Langella P, Liceaga AM, Magnani M, Martin R, Mohamad Lal MT, Mora D, Moradi M, Morelli L, Mosca F, Nazzaro F, Pimentel TC, Ran C, Ranadheera CS, Rescigno M, Salas A, Sant'Ana AS, Sivieri K, Sokol H, Taverniti V, Vallejo-Cordoba B, Zelenka J, and Zhou Z

Subjects

Humans, Probiotics

Published

2021

20. Listeria monocytogenes sensitivity to antimicrobial treatments depends on cell origin.

Author

Montanari C, Tabanelli G, Barbieri F, Mora D, Duncan R, Gardini F, and Arioli S

Subjects

Bacterial Physiological Phenomena, Colony Count, Microbial, Culture Media, Food Microbiology, Listeria monocytogenes isolation & purification, Listeriosis microbiology, Microbial Sensitivity Tests, Microbial Viability drug effects, Temperature, Anti-Bacterial Agents pharmacology, Disinfection methods, Listeria monocytogenes drug effects, Listeria monocytogenes physiology

Abstract

In this study we investigated how cell origin could affect the efficacy of an antimicrobial treatment (mild heating combined with terpenoids) in Listeria monocytogenes Scott A, considering cells from: 1. single colony, 2. glycerol stock, 3. cold adapted culture, and 4. fresh culture in stationary phase. After treatment, culturability on BHI medium and viability assessed by flow cytometry were evaluated. Our results showed that the cell origin significantly impacted viability and culturability of L. monocytogenes towards antimicrobial treatment. The mild heat treatment combined or not with terpenoids mainly affected culturability rather than viability, although the culturability of cells from single colony was less impacted. Therefore, to mimic the worst scenario, these latter were selected to contaminate Gorgonzola rind and roast beef slices and we evaluated the ability of L. monocytogenes cells to recover their culturability (on ALOA agar medium) and to growth on the food matrix stored at 4 °C for 7 days. Our results suggest that only Gorgonzola rind allowed a partial recovery of the culturability of cells previously heated in presence or not of terpens. In conclusion, we found a connection between the cell history and sensitivity toward an antimicrobial treatment, underlying the importance to standardize the experimental procedures (starting from the cells to be used in the assay) in the assessment of cell sensitivity to a specific treatment. Finally, our study clearly indicated that VBNC cells can resuscitate under favorable conditions on a food matrix, becoming a threat for consumer's health., (© 2021. The Author(s).)

Published

2021

21. Probiotics Modulate Mouse Gut Microbiota and Influence Intestinal Immune and Serotonergic Gene Expression in a Site-Specific Fashion.

Author

Taverniti V, Cesari V, Gargari G, Rossi U, Biddau C, Lecchi C, Fiore W, Arioli S, Toschi I, and Guglielmetti S

Abstract

Probiotic microorganisms may benefit the host by influencing diverse physiological processes, whose nature and underlying mechanisms are still largely unexplored. Animal models are a unique tool to understand the complexity of the interactions between probiotic microorganisms, the intestinal microbiota, and the host. In this regard, in this pilot study, we compared the effects of 5-day administration of three different probiotic bacterial strains ( Bifidobacterium bifidum MIMBb23sg, Lactobacillus helveticus MIMLh5, and Lacticaseibacillus paracasei DG) on three distinct murine intestinal sites (ileum, cecum, and colon). All probiotics preferentially colonized the cecum and colon. In addition, probiotics reduced in the ileum and increased in the cecum and colon the relative abundance of numerous bacterial taxonomic units. MIMBb23sg and DG increased the inducible nitric oxide synthase (iNOS) in the ileum, which is involved in epithelial homeostasis. In addition, MIMBb23sg upregulated cytokine IL-10 in the ileum and downregulated the cyclooxygenase COX-2 in the colon, suggesting an anti-inflammatory/regulatory activity. MIMBb23sg significantly affected the expression of the main gene involved in serotonin synthesis (TPH1) and the gene coding for the serotonin reuptake protein (SERT) in the ileum and colon, suggesting a potential propulsive effect toward the distal part of the gut, whereas the impact of MIMLh5 and DG on serotonergic genes suggested an effect toward motility control. The three probiotics decreased the expression of the permeability marker zonulin in gut distal sites. This preliminary in vivo study demonstrated the safety of the tested probiotic strains and their common ability to modulate the intestinal microbiota. The probiotics affected host gene expression in a strain-specific manner. Notably, the observed effects in the gut were site dependent. This study provides a rationale for investigating the effects of probiotics on the serotonergic system, which is a topic still widely unexplored., Competing Interests: SG was consultant of Sofar S.p.A., the private company that commercializes strains L. paracasei DG and B. bifidum MIMBb23g. WF was an employee of Sofar S.p.A. SG and VT received royalties from the sale of the strain B. bifidum MIMBb23sg. SG and VT received royalties from the sale of the strain L. helveticus MIMLh5. The remanining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Taverniti, Cesari, Gargari, Rossi, Biddau, Lecchi, Fiore, Arioli, Toschi and Guglielmetti.)

Published

2021

22. Mono-Dimensional Blue Native-Page And Bi-Dimensional Blue Native/Urea- Or /SDS-PAGE Combined With Nanolc-Esi-Lit-Ms/Ms Unveil Membrane Protein Heteromeric And Homomeric Complexes In Streptococcus Thermophilus

Author

Salzano A.M., Sassi M., Novi G., Arioli S., Corona S., Mora D., and Scaloni A.

Published

2014

23. The murein lytic enzyme TgaA of Bifidobacterium bifidum MIMBb75 modulates dendritic cell maturation through its CHAP amidase domain

Author

Guglielmetti, S, ZANONI, IVAN, Balzaretti, S, Miriani, M, Taverniti, V, De Noni, I, PRESTI, ILARIA, Stuknyte, M, Scarafoni, A, Arioli, S, Iametti, S, BONOMI, FEDERICA, Mora, D, Karp, M, GRANUCCI, FRANCESCA, Guglielmetti, S, Zanoni, I, Balzaretti, S, Miriani, M, Taverniti, V, De Noni, I, Presti, I, Stuknyte, M, Scarafoni, A, Arioli, S, Iametti, S, Bonomi, F, Mora, D, Karp, M, and Granucci, F

Subjects

bifidobacteriun bifidum, MED/04 - PATOLOGIA GENERALE

Abstract

Bifidobacteria are Gram-positive inhabitants of the human gastrointestinal tract that have evolved close interaction with their host and especially with the host's immune system. The molecular mechanisms underlying such interactions, however, are largely unidentified. In this study, we investigated the immunomodulatory potential of Bifidobacterium bifidum MIMBb75, a bacterium of human intestinal origin commercially used as a probiotic. Particularly, we focused our attention on TgaA, a protein expressed on the outer surface of MIMBb75's cells and homologous to other known bacterial immuno-active proteins. TgaA is a peptidoglycan lytic enzyme containing two active domains: Lytic murein Transglycosylase (LT) and Cysteine Histidine-dependent Amidohydrolase/Peptidase (CHAP). We ran immunological experiments stimulating dendritic cells (DCs) with the B. bifidum MIMBb75 and TgaA with the result that both the bacterium and the protein activated DCs and triggered interleukin (IL)-2 production. In addition, we observed that the heterologous expression of TgaA in Bifidobacterium longum transferred to the bacterium the ability to induce IL-2. Subsequently, immunological experiments performed using two purified recombinant proteins corresponding to the single domains LT and CHAP demonstrated that the CHAP domain is the immune-reactive region of TgaA. Finally, we also showed that TgaA-dependent activation of DCs requires the protein CD14, marginally involves TRIF, and is independent of TLR-4 and MyD88. In conclusion, our study suggests that the bacterial CHAP domain is a novel microbe-associated molecular pattern actively participating in the cross-talk mechanisms between bifidobacteria and the host's immune system

Published

2014

24. Gut Microbiota Condition the Therapeutic Efficacy of Trastuzumab in HER2-Positive Breast Cancer.

Author

Di Modica M, Gargari G, Regondi V, Bonizzi A, Arioli S, Belmonte B, De Cecco L, Fasano E, Bianchi F, Bertolotti A, Tripodo C, Villani L, Corsi F, Guglielmetti S, Balsari A, Triulzi T, and Tagliabue E

Subjects

Animals, Anti-Bacterial Agents pharmacology, Breast Neoplasms immunology, Bridged-Ring Compounds therapeutic use, CD4-Positive T-Lymphocytes, Cyclophosphamide therapeutic use, Cytokines blood, Dendritic Cells drug effects, Doxorubicin therapeutic use, Fecal Microbiota Transplantation, Female, Gastrointestinal Microbiome drug effects, Gastrointestinal Microbiome immunology, Granzymes, Humans, Immune System, Immunity, Mucosal, Interferons metabolism, Interleukin-12 metabolism, Mice, Neoadjuvant Therapy, Nitric Oxide metabolism, Streptomycin pharmacology, Taxoids therapeutic use, Treatment Outcome, Tumor Microenvironment drug effects, Tumor Microenvironment immunology, Vancomycin pharmacology, Antineoplastic Agents, Immunological therapeutic use, Breast Neoplasms chemistry, Breast Neoplasms drug therapy, Gastrointestinal Microbiome physiology, Receptor, ErbB-2, Trastuzumab therapeutic use

Abstract

Emerging evidence indicates that gut microbiota affect the response to anticancer therapies by modulating the host immune system. In this study, we investigated the impact of gut microbiota on immune-mediated trastuzumab antitumor efficacy in preclinical models of HER2-positive breast cancer and in 24 patients with primary HER2-positive breast cancer undergoing trastuzumab-containing neoadjuvant treatment. In mice, the antitumor activity of trastuzumab was impaired by antibiotic administration or fecal microbiota transplantation from antibiotic-treated donors. Modulation of the intestinal microbiota was reflected in tumors by impaired recruitment of CD4 + T cells and granzyme B-positive cells after trastuzumab treatment. Antibiotics caused reductions in dendritic cell (DC) activation and the release of IL12p70 upon trastuzumab treatment, a mechanism that was necessary for trastuzumab effectiveness in our model. In patients, lower α-diversity and lower abundance of Lachnospiraceae, Turicibacteraceae, Bifidobacteriaceae , and Prevotellaceae characterized nonresponsive patients (NR) compared with those who achieved pathologic complete response (R), similar to antibiotic-treated mice. The transfer of fecal microbiota from R and NR into mice bearing HER2-positive breast cancer recapitulated the response to trastuzumab observed in patients. Fecal microbiota β-diversity segregated patients according to response and positively correlated with immune signature related to interferon (IFN) and NO2-IL12 as well as activated CD4 + T cells and activated DCs in tumors. Overall, our data reveal the direct involvement of the gut microbiota in trastuzumab efficacy, suggesting that manipulation of the gut microbiota is an optimal future strategy to achieve a therapeutic effect or to exploit its potential as a biomarker for treatment response. SIGNIFICANCE: Evidence of gut microbiota involvement in trastuzumab efficacy represents the foundation for new therapeutic strategies aimed at manipulating commensal bacteria to improve response in trastuzumab-resistant patients. See related commentary by Sharma, p. 1937 GRAPHICAL ABSTRACT: http://cancerres.aacrjournals.org/content/canres/81/8/2195/F1.large.jpg., (©2021 American Association for Cancer Research.)

Published

2021

25. INVESTIGATION OF CYTOSOLIC AND MEMBRANE MULTIPROTEIN COMPLEXES OF STREPTOCOCCUS THERMOPHILUS BY BLUE NATIVE AND COLORLESS NATIVE ELECTROPHORESIS IN COMBINATION WITH SDS-PAGE AND NLC-ESI-MS/MS

Author

Salzano A.M., Novi G., Arioli S., Mora D., and Scaloni A.

Published

2011

26. The Neglected Microbial Components of Commercial Probiotic Formulations.

Author

Fiore W, Arioli S, and Guglielmetti S

Abstract

Producers of probiotic products are legally required to indicate on the label only the minimum numbers of viable microorganisms at the end of shelf life expressed as colony-forming units (CFUs). Label specifications, however, describe only a fraction of the actual microbiological content of a probiotic formulation. This paper describes the microbiological components of a probiotic product that are not mentioned on the label, such as the actual number of CFUs, the presence of viable cells that cannot generate colonies on agar plates, and the abundance of dead cells. These "hidden" microbial fractions in probiotic products, the abundance of which may change during the shelf life, can promote biological responses in the host. Therefore, they should not be ignored because they may influence the efficacy and can be relevant for immunocompromised or fragile consumers. In conclusion, we propose the minimum requirements for microbiological characterization of probiotic products to be adopted for label specifications and clinical studies.

Published

2020

27. Streptococcus thermophilus : To Survive, or Not to Survive the Gastrointestinal Tract, That Is the Question!

Author

Martinović A, Cocuzzi R, Arioli S, and Mora D

Subjects

Feces microbiology, Humans, Phylogeny, Probiotics administration & dosage, Gastrointestinal Tract microbiology, Streptococcus thermophilus metabolism

Abstract

The probiotic market is increasing world-wide as well as the number of products marketed as probiotics. Among the latter, many products contain Streptococcus thermophilus strains at several dosages. However, the scientific evidence that should support the probiotic status of those S. thermophilus strains is often contradictory. This review analyses the scientific literature aimed to assess the ability of S. thermophilus strains to survive the human gastrointestinal tract by discussing the scientific validity of the methods applied for the bacterial recovery and identification from stool samples. This review highlights that in most of the intervention studies reviewed, the identification of S. thermophilus strains from stools was not carried out with the necessary taxonomic accuracy to avoid their misidentification with Streptococcus salivarius , a common human commensal and a species phylogenetically close to S. thermophilus . Moreover, this review highlights how critical the accurate taxonomic identification of S. thermophilus in metagenomics-based studies can be.

Published

2020

28. Effect of oral consumption of capsules containing Lactobacillus paracasei LPC-S01 on the vaginal microbiota of healthy adult women: a randomized, placebo-controlled, double-blind crossover study.

Author

Koirala R, Gargari G, Arioli S, Taverniti V, Fiore W, Grossi E, Anelli GM, Cetin I, and Guglielmetti S

Subjects

Adult, Capsules, Cross-Over Studies, Female, Humans, RNA, Ribosomal, 16S genetics, Lacticaseibacillus paracasei, Microbiota, Probiotics, Vaginosis, Bacterial

Abstract

Oral consumption of probiotics is practical and can be an effective solution to preserve vaginal eubiosis. Here, we studied the ability of orally administered Lactobacillus paracasei LPC-S01 (DSM 26760) to affect the composition of the vaginal microbiota and colonize the vaginal mucosa in nondiseased adult women. A total of 40 volunteers took oral probiotic (24 billion CFU) or placebo capsules daily for 4 weeks, and after a 4-week washout, they switched to placebo or probiotic capsules according to the crossover design. A total of 23 volunteers completed the study according to the protocol. Before and after capsule ingestion, vaginal swabs were collected for qPCR quantification to detect L. paracasei LPC-S01 and for 16S rRNA gene sequencing. Vaginal swabs were grouped according to their bacterial taxonomic structure into nine community state types (CSTs), four of which were dominated by lactobacilli. Lactobacillus paracasei LPC-S01 was detected in the vagina of two participants. Statistical modeling (including linear mixed-effects model analysis) demonstrated that daily intake of probiotic capsules reduced the relative abundance of Gardnerella spp. Quantitative PCR with Gardnerella vaginalis primers confirmed this result. Considering the pathogenic nature of G. vaginalis, these results suggest a potential positive effect of this probiotic capsule on the vaginal microbial ecosystem., (© FEMS 2020.)

Published

2020

29. Structural Requirements of Benzofuran Derivatives Dehydro- δ - and Dehydro- ε -Viniferin for Antimicrobial Activity Against the Foodborne Pathogen Listeria monocytogenes .

Author

Catinella G, Mattio LM, Musso L, Arioli S, Mora D, Beretta GL, Zaffaroni N, Pinto A, and Dallavalle S

Subjects

Anti-Bacterial Agents pharmacology, Benzofurans chemical synthesis, Benzofurans pharmacology, Cell Line, Fibroblasts drug effects, Food Microbiology, Humans, Microbial Sensitivity Tests, Resorcinols pharmacology, Resveratrol chemistry, Resveratrol pharmacology, Skin drug effects, Stilbenes pharmacology, Anti-Bacterial Agents chemistry, Benzofurans chemistry, Listeria monocytogenes drug effects, Resorcinols chemistry, Stilbenes chemistry

Abstract

In a recent study, we investigated the antimicrobial activity of a collection of resveratrol-derived monomers and dimers against a series of foodborne pathogens. Out of the tested molecules, dehydro- δ -viniferin and dehydro- ε -viniferin emerged as the most promising derivatives. To define the structural elements essential to the antimicrobial activity against the foodborne pathogen L. monocytogenes Scott A as a model Gram-positive microorganism, the synthesis of a series of simplified benzofuran-containing derivatives was carried out. The systematic removal of the aromatic moieties of the parent molecules allowed a deeper insight into the most relevant structural features affecting the activity. While the overall structure of compound 1 could not be altered without a substantial loss of antimicrobial activity, the structural simplification of compound 2 (minimal inhibitory concentration (MIC) 16 µg/mL, minimal bactericidal concentration (MBC) >512 µg/mL) led to the analogue 7 with increased activity (MIC 8 µg/mL, MBC 64 µg/mL).

Published

2020

30. Endogenous murine microbiota member Faecalibaculum rodentium and its human homologue protect from intestinal tumour growth.

Author

Zagato E, Pozzi C, Bertocchi A, Schioppa T, Saccheri F, Guglietta S, Fosso B, Melocchi L, Nizzoli G, Troisi J, Marzano M, Oresta B, Spadoni I, Atarashi K, Carloni S, Arioli S, Fornasa G, Asnicar F, Segata N, Guglielmetti S, Honda K, Pesole G, Vermi W, Penna G, and Rescigno M

Subjects

Adult, Aged, Animals, Cell Proliferation drug effects, Colonic Neoplasms microbiology, Colonic Neoplasms therapy, DNA, Bacterial genetics, DNA, Bacterial isolation & purification, Fatty Acids, Volatile metabolism, Female, Firmicutes isolation & purification, Humans, In Situ Hybridization, Fluorescence, Intestinal Neoplasms pathology, Male, Mice, Mice, Inbred C57BL, Mice, Inbred ICR, Middle Aged, RNA, Bacterial genetics, RNA, Bacterial isolation & purification, Firmicutes physiology, Gastrointestinal Microbiome physiology, Intestinal Neoplasms microbiology, Intestines microbiology

Abstract

The microbiota has been shown to promote intestinal tumourigenesis, but a possible anti-tumourigenic effect has also been postulated. Here, we demonstrate that changes in the microbiota and mucus composition are concomitant with tumourigenesis. We identified two anti-tumourigenic strains of the microbiota-Faecalibaculum rodentium and its human homologue, Holdemanella biformis-that are strongly under-represented during tumourigenesis. Reconstitution of Apc Min/+ or azoxymethane- and dextran sulfate sodium-treated mice with an isolate of F. rodentium (F. PB1) or its metabolic products reduced tumour growth. Both F. PB1 and H. biformis produced short-chain fatty acids that contributed to control protein acetylation and tumour cell proliferation by inhibiting calcineurin and NFATc3 activation in mouse and human settings. We have thus identified endogenous anti-tumourigenic bacterial strains with strong diagnostic, therapeutic and translational potential.

Published

2020

31. Antimicrobial activity of resveratrol-derived monomers and dimers against foodborne pathogens.

Author

Mattio LM, Dallavalle S, Musso L, Filardi R, Franzetti L, Pellegrino L, D'Incecco P, Mora D, Pinto A, and Arioli S

Subjects

Food Microbiology, Gram-Positive Bacteria drug effects, Listeria monocytogenes drug effects, Membrane Potentials drug effects, Microbial Sensitivity Tests, Anti-Bacterial Agents pharmacology, Resveratrol chemistry

Abstract

Plant polyphenolic compounds are considered a promising source for new antibacterial agents. In this study, we evaluated the antimicrobial activity of a collection of resveratrol-derived monomers and dimers screened as single molecules against a panel of nine foodborne pathogens. The results demonstrated that two monomers (i.e., pterostilbene 2 and (E)-3-hydroxy-4',5-dimethoxystilbene 9) and three dimers (i.e., δ-viniferin 10, viniferifuran 14 and dehydro-δ-viniferin 15) were endowed with significant antibacterial activity against gram-positive bacteria. The exposure of gram-positive foodborne pathogens to 100 µg/mL of 2, 9 and 15 induced severe cell membrane damage, resulting in the disruption of the phospholipid bilayer. The most promising dimeric compound, dehydro-δ-viniferin 15, was tested against Listeria monocytogenes, resulting in a loss of cultivability, viability and cell membrane potential. TEM analysis revealed grave morphological modifications on the cell membrane and leakage of intracellular content, confirming that the cell membrane was the principal biological target of the tested derivative.

Published

2019

32. Heyndrickxia coagulans LMG S-24828 Is a Safe Probiotic Strain Capable of Germinating in the Human Gut.

Author

Duncan R, Mantegazza G, Gargari G, Pierallini E, Russo R, and Guglielmetti S

Abstract

Ensuring the viability and efficacy of probiotic microorganisms during manufacturing and gastrointestinal transit remains challenging, particularly for sensitive strains such as certain lactic acid bacteria and bifidobacteria. This has led to increased interest in spore-forming bacteria, such as Heyndrickxia coagulans (formerly Bacillus coagulans), which can endure environmental stresses through their endospore forms. This study presents a comprehensive analysis of the probiotic potential of strain LMG S-24828, originally isolated from healthy human feces. The genomic analysis confirmed the strain's taxonomic placement within the species H. coagulans and revealed no extrachromosomal plasmid DNA, suggesting genetic stability. Safety assessments demonstrated that LMG S-24828 does not produce D-lactate, deconjugate bile salts, or exhibit hemolytic activity, and it lacks transmissible antibiotic resistances. Phenotypic tests showed the strain's metabolic versatility, including its ability to hydrolyze complex carbohydrates and adhere to intestinal epithelial cells. Moreover, LMG S-24828 exhibited robust survival and germination during in vitro and in vivo gastrointestinal simulations, with evidence of significant spore germination in the human gut. These findings suggest that H. coagulans LMG S-24828 possesses several advantageous traits for probiotic applications, warranting further clinical evaluation to confirm its health benefits., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

33. Characterization of airborne viromes in cheese production plants.

Author

Colombo, S., Arioli, S., Gargari, G., Neri, E., Della Scala, G., and Mora, D.

Subjects

*HUMAN microbiota, *LEGIONELLA pneumophila, *PATHOGENIC microorganisms, *BACTERIOPHAGES, *METAGENOMICS

Abstract

Aims: To characterize airborne virus‐like particles isolated from two cheese production plants in order to reveal their complexity in terms of viral communities and microbial genes potentially mobilized by viruses. Methods and Results: Airborne virus‐like particles have been isolated from Grana Padano and Gorgonzola PDO cheese production plants and ripening cellars. A shotgun metagenomics analysis of the isolated viromes highlighted a high complexity of the viral communities both in terms of viral taxonomy and phage–host associations. Bacterial reads in each of the viromes were confirmed to be abundant and their taxonomy appeared to be associated with the environmental parameters and the technological processes that characterize the sampling area. Antibiotic resistance genes have been identified in each virome thus confirming that phages could be involved in the mobilization of antimicrobial resistances among bacterial populations. Interestingly human viruses were also identified even if the contamination source was not revealed. Conclusions: The environmental conditions, which are imposed by the technology of the dairy process, seam to shape the viral populations as a consequence of the adaptation of microbial taxa to those environments. The identification of sequences belonging to Legionella pneumophila and to the human papillomavirus, raised some considerations about the safety of cheese‐ripening cellars. Significance and Impact of the study: In conclusion, the analysis of the dairy airborne viromes, has revealed a high complexity of the viral communities even if the environments where the samples were collected were confined environments. Metagenomics of airborne viral population could be a promising monitoring tool for the biological characterization of dairy environments. [ABSTRACT FROM AUTHOR]

Published

2018

34. Development of a milk-based medium for the selection of urease-defective mutants of Streptococcus thermophilus.

Author

Scala GD, Volontè F, Ricci G, Pedersen MB, Arioli S, and Mora D

Subjects

Animals, Lactic Acid biosynthesis, Lactose metabolism, Milk metabolism, Phenotype, Ammonia metabolism, Streptococcus thermophilus genetics, Streptococcus thermophilus metabolism, Urea metabolism, Urease genetics

Abstract

Streptococcus thermophilus strains are used in fermented dairy products for their capacity to metabolize lactose into lactic acid. The rate of lactic acid production in milk is of major economic importance, as rapid acidification prevents growth of undesirable microorganisms. It is also of paramount significance for aroma, texture and flavor of the end product. Besides achieving customer satisfaction, improvement of production rate and operational costs incite industrials into selecting fast acidifying strains. Another important trait of S. thermophilus influencing acidification is the urease, which catabolizes urea into ammonia and has a detrimental effect on acidification. Unfortunately, most of the S. thermophilus strains possess the urease, and the urease-negative ones are necessary for industrial applications. Urease activity is a widely distributed activity in S. thermophilus species, and urease-negative strains are rare. The later are however interesting from an industrial point of view, as they may give faster acidification in dairy applications, because lactic acid is not buffered by urea-derived ammonia. Nowadays, the efforts to improve the characteristics of strains for industrial applications are based on natural strategies such as random mutagenesis. This implies the need of a screening method that is efficient in terms of time and success. In this context, the aim of this study was the development of a new medium that allows selection of urease-defective mutants based on S. thermophilus colony morphology. Discrimination capacity of the new medium was verified using previously characterized urease-negative recombinant strains. The new milk-based medium, applied to industrial S. thermophilus strains subjected to UV mutagenesis, allowed the selection of 3 mutants, partially or completely defective in urease activity. Genetic characterization of urease-defective mutants highlighted the presence of nonsense or missense mutations in the ureA, ureC and ureG genes, thus supporting their phenotype. Evaluation of milk acidification revealed increased performance for one out of three urease-defective mutants compared to wild-type strains., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

35. Development of omics-based protocols for the microbiological characterization of multi-strain formulations marketed as probiotics: the case of VSL#3.

Author

Mora D, Filardi R, Arioli S, Boeren S, Aalvink S, and de Vos WM

Subjects

Bacterial Proteins analysis, Bacterial Proteins isolation & purification, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Bacterial isolation & purification, High-Throughput Nucleotide Sequencing, Microbial Viability, Technology, Pharmaceutical standards, Urease analysis, beta-Galactosidase analysis, Metagenomics methods, Microbiological Techniques methods, Probiotics analysis, Proteomics methods, Technology, Pharmaceutical methods

Abstract

The growing commercial interest in multi-strain formulations marketed as probiotics has not been accompanied by an equal increase in the evaluation of quality levels of these biotechnological products. The multi-strain product VSL#3 was used as a model to setup a microbiological characterization that could be extended to other formulations with high complexity. Shotgun metagenomics by deep Illumina sequencing was applied to DNA isolated from the commercial VSL#3 product to confirm strains identity safety and composition. Single-cell analysis was used to evaluate the cell viability, and β-galactosidase and urease activity have been used as marker to monitor the reproducibility of the production process. Similarly, these lots were characterized in detail by a metaproteomics approach for which a robust protein extraction protocol was combined with advanced mass spectrometry. The results identified over 1600 protein groups belonging to all strains present in the VSL#3 formulation. Of interest, only 3.2 % proteins showed significant differences mainly related to small variations in strain abundance. The protocols developed in this study addressed several quality criteria that are relevant for marketed multi-strain products and these represent the first efforts to define the quality of complex probiotic formulations such as VSL#3., (© 2019 The Authors. Microbial Biotechnology published by John Wiley & Sons Ltd and Society for Applied Microbiology.)

Published

2019

36. Surface Layer of Lactobacillus helveticus MIMLh5 Promotes Endocytosis by Dendritic Cells.

Author

Taverniti V, Marengo M, Fuglsang E, Skovsted HM, Arioli S, Mantegazza G, Gargari G, Iametti S, Bonomi F, Guglielmetti S, and Frøkiær H

Subjects

Animals, Bone Marrow, Mice, Inbred C57BL, Dendritic Cells physiology, Endocytosis, Lactobacillus helveticus chemistry, Probiotics chemistry

Abstract

Surface layers (S-layers) are proteinaceous arrays covering the cell walls of numerous bacteria. Their suggested properties, such as interactions with the host immune system, have been only poorly described. Here, we aimed to elucidate the role of the S-layer from the probiotic bacterial strain Lactobacillus helveticus MIMLh5 in the stimulation of murine bone-marrow-derived dendritic cells (DCs). MIMLh5 induced greater production of interferon beta (IFN-β), interleukin 10 (IL-10), and IL-12p70, compared to S-layer-depleted MIMLh5 (naked MIMLh5 [n-MIMLh5]), whereas the isolated S-layer was a poor immunostimulator. No differences in the production of tumor necrosis factor alpha (TNF-α) or IL-1β were found. Inhibition of the mitogen-activated protein kinases JNK1/2, p38, and ERK1/2 modified IL-12p70 production similarly in MIMLh5 and n-MIMLh5, suggesting the induction of the same signaling pathways by the two bacterial preparations. Treatment of DCs with cytochalasin D to inhibit endocytosis before the addition of fluorescently labeled MIMLh5 cells led to a dramatic reduction in the proportion of fluorescence-positive DCs and decreased IL-12 production. Endocytosis and IL-12 production were only marginally affected by cytochalasin D pretreatment when fluorescently labeled n-MIMLh5 was used. Treatment of DCs with fluorescently labeled S-layer-coated polystyrene beads (Sl-beads) resulted in much greater uptake of beads, compared to noncoated beads. Prestimulation of DCs with cytochalasin D reduced the uptake of Sl-beads more than plain beads. These findings indicate that the S-layer plays a role in the endocytosis of MIMLh5 by DCs. In conclusion, this study provides evidence that the S-layer of L. helveticus MIMLh5 is involved in endocytosis of the bacterium, which is important for strong Th1-inducing cytokine production. IMPORTANCE Beneficial microbes may positively affect host physiology at various levels, e.g., by participating in immune system maturation and modulation, boosting defenses and dampening reactions, thus affecting the whole homeostasis. As a consequence, the use of probiotics is increasingly regarded as suitable for more extended applications for health maintenance, not only microbiota balancing. This implies a deep knowledge of the mechanisms and molecules involved in host-microbe interactions, for the final purpose of fine tuning the choice of a probiotic strain for a specific outcome. With this aim, studies targeted to the description of strain-related immunomodulatory effects and the identification of bacterial molecules responsible for specific responses are indispensable. This study provides new insights in the characterization of the food-origin probiotic bacterium L. helveticus MIMLh5 and its S-layer protein as a driver for the cross-talk with DCs., (Copyright © 2019 American Society for Microbiology.)

Published

2019

37. Occurrence, diversity, and persistence of antibiotic resistant enterococci in full-scale constructed wetlands treating urban wastewater in Sicily.

Author

Russo N, Pino A, Toscano A, Cirelli GL, Caggia C, Arioli S, and Randazzo CL

Subjects

Drug Resistance, Bacterial, Enterococcus faecalis, Humans, Sicily, Wastewater, Wetlands, Anti-Bacterial Agents pharmacology, Enterococcus

Abstract

Enterococci isolated from different sites of an urban wastewater treatment plant (consisting of three horizontal subsurface flow constructed wetlands) were investigated. One-hundred-thirty isolates were identified at species level and tested for resistance to eleven antibiotics, by microdilution method, and their clonal relatedness was established by SmaI-PFGE analysis. Results highlighted the persistence of enterococcal population in all effluents and the dominance of E. faecium species. A high incidence of antibiotic resistance against erythromycin, chloramphenicol, rifampicin and ampicillin was observed, with 120 strains (93%) showing a multi-drug-resistance. Numerous pulso-types with a unique pattern were detected indicating a high diversity within enterococcal population. The recurrence of some pulso-types in different effluents was disclosed and, within the same pulso-types, different resistance patterns were observed. Comparing the MIC values of strains from inlet and outlet, different trends were observed, highlighting a certain variability among constructed wetlands in affecting the antibiotic resistance among enterococcal population., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

38. Effect of Cell Concentration on the Persistence in the Human Intestine of Four Probiotic Strains Administered through a Multispecies Formulation.

Author

Taverniti V, Koirala R, Dalla Via A, Gargari G, Leonardis E, Arioli S, and Guglielmetti S

Subjects

Cell Survival, DNA, Bacterial genetics, DNA, Bacterial isolation & purification, Feces microbiology, Gastrointestinal Tract, Humans, Lactoferrin deficiency, Leukocyte Disorders, Bifidobacterium physiology, Lactobacillus physiology, Probiotics administration & dosage

Abstract

Studies devoted to evaluating the outcome of different doses of probiotics are very limited, especially for multistrain formulations. In this context, we performed an intervention study that aimed to compare the effect of the administration of two doses (7 billion and 70 billion bacterial cells) of a multistrain probiotic formulation on the persistence of the four probiotic strains that were present in the product in the fecal samples collected from healthy subjects. The overall persistence of the probiotic strains was significantly higher for the 70 billion formulation than for the 7 billion formulation. Furthermore, probiotic strains were detected earlier and for longer for the 70 billion formulation compared to those for the 7 billion formulation. All probiotic strains were recovered alive from the 70 billion preparation, whereas recovery was not possible in a few fecal samples upon administration of the 7 billion preparation. In addition, the overall number of viable probiotic cells recovered on day 14 (i.e., the last day of consumption) was significantly higher for the 70 billion formulation than that for the 7 billion formulation. Finally, we found that the viability of the probiotic cells was stable over the course of the trial independent of volunteers' handling, demonstrating good manufacturing of the product. In conclusion, this study demonstrated that strains belonging to different taxa may coexist in the human gastrointestinal tract upon ingestion of a multispecies probiotic formulation. Moreover, this study suggests that higher doses of bacterial cells in probiotic formulations may permit a higher, earlier, and longer recovery of the probiotics in the feces of healthy adults.

Published

2019

39. Monitoring microbial communities' dynamics during the start-up of microbial fuel cells by high-throughput screening techniques.

Author

Pepè Sciarria T, Arioli S, Gargari G, Mora D, and Adani F

Abstract

Microbial Electrochemical Technologies are based on the use of electrochemically active microorganisms that can carry out extracellular electron transfer to an electrode while they are oxidizing the organic compounds. The dynamics and changes of the bacterial community in the anode biofilm and planktonic broth of an acetate fed batch single chamber air cathode MFC have been studied by combing flow-cytometry and Illumina sequencing techniques. At the beginning of the test, from 0 h to 70 h, microbial planktonic communities changed from four groups to two groups, as revealed by DNA content, and from three groups to one group based on the cell membrane polarization revealed by a DiOC 6 (3) probe. Between 4 th day and 13 th day, microbial communities changed from one group to a maximum of three groups, monitoring DNA content, and from one group to two based on the cell membrane polarization. The 16S rDNA gene profiling confirmed the shift in microbial communities, with Acinetobacter (39.34%), Azospirillum (27.66%), Arcobacter (4.17%) and Comamonas (2.62%) being the most abundant genera at the beginning of MFC activation. After 70 h the main genera detected were Azospirillum (46.42%), Acinetobacter (34.66%), Enterococcus (2.32%) , Dysgonomonas (2.14%). Data obtained have shown that flow cytometry and illumina sequencing are useful tools to monitor "online" the changes in microbial communities during the MFCs start-up and the increase of Azospirillum and Acinetobacter genera is in good agreement with the MFC voltage generation. Moreover, monitoring planktonic populations, instead of the less accessible anode biofilm, was in good agreement with the evolution of MFC voltage.

Published

2019

40. Role of Temperate Bacteriophage ϕ20617 on Streptococcus thermophilus DSM 20617 T Autolysis and Biology.

Author

Arioli S, Eraclio G, Della Scala G, Neri E, Colombo S, Scaloni A, Fortina MG, and Mora D

Abstract

Streptococcus thermophilus DSM 20167 T showed autolytic behavior when cultured in lactose- and sucrose-limited conditions. The amount of cell lysis induced was inversely related to the energetic status of the cells, as demonstrated by exposing cells to membrane-uncoupling and glycolysis inhibitors. Genome sequence analysis of strain DSM 20617 T revealed the presence of a pac -type temperate bacteriophage, designated Φ20617, whose genomic organization and structure resemble those of temperate streptococcal bacteriophages. The prophage integrated at the 3'-end of the gene encoding the glycolytic enzyme enolase ( eno ), between eno and the lipoteichoic acid synthase-encoding gene ltaS , affecting their transcription. Comparative experiments conducted on the wild-type strain and a phage-cured derivative strain revealed that the cell-wall integrity of the lysogenic strain was compromised even in the absence of detectable cell lysis. More importantly, adhesion to solid surfaces and heat resistance were significantly higher in the lysogenic strain than in the phage-cured derivative. The characterization of the phenotype of a lysogenic S. thermophilus and its phage-cured derivative is relevant to understanding the ecological constraints that drive the stable association between a temperate phage and its bacterial host.

Published

2018

41. Enterococcus spp. in Ragusano PDO and Pecorino Siciliano cheese types: A snapshot of their antibiotic resistance distribution.

Author

Russo N, Caggia C, Pino A, Coque TM, Arioli S, and Randazzo CL

Subjects

Ampicillin pharmacology, Anti-Bacterial Agents pharmacology, Enterococcus classification, Erythromycin pharmacology, Microbial Sensitivity Tests, Multiplex Polymerase Chain Reaction, Rifampin pharmacology, Species Specificity, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Cheese microbiology, Drug Resistance, Multiple, Bacterial genetics, Enterococcus drug effects, Enterococcus isolation & purification

Abstract

In the present study, 110 enterococci were isolated from two Sicilian cheese types, Ragusano PDO and Pecorino Siciliano. Isolates, firstly identified by MALDI-TOF/MS and a multiplex PCR assay, were tested for susceptibility to the most relevant clinical antibiotics. Clonal relationships among isolates were evaluated by pulsed-field-gel electrophoresis (PFGE) analysis and the presence of vanA and vanB genes, in vancomycin resistant enterococci (VRE), was investigated. Overall, E. faecalis, E. durans (35% for each species) and E. faecium (28%) were the major identified species. Different occurrence between cheese types was revealed. Most isolates from Ragusano PDO cheese were identified as E. durans (46%) and/or E. faecalis (43%), while E. faecium (605) was mainly detected in Pecorino Siciliano cheese. High incidence of resistance (97% of total strains) was detected for rifampicin, erythromycin and ampicillin. Moreover, 83 isolates (75%) exhibited multidrug-resistant phenotypes and the one VRE (vanB) isolate was identified as E. durans. PFGE analysis clustered isolates into 22 genotypes and the presence of the same PFGE types, for both E. durans and E. faecalis, in the two cheese types, suggest the link between enterococci and geographical area of production. Results of present study raise concerns about possible role of dairy enterococci as reservoirs of antibiotic resistance., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2018

42. Modulation of Pulmonary Microbiota by Antibiotic or Probiotic Aerosol Therapy: A Strategy to Promote Immunosurveillance against Lung Metastases.

Author

Le Noci V, Guglielmetti S, Arioli S, Camisaschi C, Bianchi F, Sommariva M, Storti C, Triulzi T, Castelli C, Balsari A, Tagliabue E, and Sfondrini L

Subjects

Administration, Inhalation, Animals, Anti-Bacterial Agents administration & dosage, Cell Line, Tumor, Cells, Cultured, Female, Lung Neoplasms immunology, Lung Neoplasms microbiology, Lung Neoplasms secondary, Melanoma pathology, Mice, Mice, Inbred C57BL, Probiotics administration & dosage, Anti-Bacterial Agents therapeutic use, Immunologic Surveillance, Lung microbiology, Lung Neoplasms therapy, Microbiota, Probiotics therapeutic use

Abstract

Pulmonary immunological tolerance to inhaled particulates might create a permissive milieu for lung metastasis. Lung microbiota contribute to pulmonary tolerance; here, we explored whether its manipulation via antibiotic or probiotic aerosolization favors immune response against melanoma metastasis. In lungs of vancomycin/neomycin-aerosolized mice, a decrease in bacterial load was associated with reduced regulatory T cells and enhanced T cell and NK cell activation that paralleled a significant reduction of melanoma B16 lung metastases. Reduction of metastases also occurred in lungs transplanted with bacterial isolates from antibiotic-treated lungs. Aerosolized Lactobacillus rhamnosus strongly promoted immunity against B16 lung metastases as well. Furthermore, probiotics or antibiotics improved chemotherapy activity against advanced B16 metastases. Thus, we identify a role for lung microbiota in metastasis and show that its targeting via aerosolization is a therapy that can prevent metastases and enhance responses to chemotherapy., (Copyright © 2018 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2018

43. Quantitative Recovery of Viable Lactobacillus paracasei CNCM I-1572 (L. casei DG®) After Gastrointestinal Passage in Healthy Adults.

Author

Arioli S, Koirala R, Taverniti V, Fiore W, and Guglielmetti S

Abstract

Probiotics are live microorganisms, and viability after transit through the gastrointestinal tract (GIT) is considered an inherent property of the health benefits of probiotics. The aim of the present study was to quantify the viable and total loads of Lactobacillus paracasei DG cells after passage through the GIT following the consumption of the probiotic product Enterolactis (L. casei DG®; L. paracasei CNCM I-1572; L. paracasei DG) from drinkable vials by healthy adults. We developed a novel method for discriminating and enumerating culturable L. paracasei DG cells based on the unique sticky, filamentous phenotype of this strain on MRS agar containing vancomycin and kanamycin. The identity of DG was also confirmed with strain-specific primers by colony PCR. This method was used for a recovery study of the DG strain to quantify viable cells in the fecal samples of 20 volunteers during a 1-week probiotic consumption period and a 1-week follow-up. We isolated L. paracasei DG from at least one fecal sample from all the volunteers. The highest concentration of viable DG cells [ranging from 3.6 to 6.7 log 10 colony-forming unit (CFU) per gram of feces] in the feces was observed between 4 and 8 days from the beginning of Enterolactis intake and for up to 5 days after cessation of intake. As expected, the total DG count determined by real-time quantitative PCR (qPCR) was mostly higher than the viable DG cells recovered. Viable count experiments, carried out by combining ad hoc culture-based discriminative conditions and strain-specific molecular biological protocols, unambiguously demonstrated that L. paracasei DG can survive gastrointestinal transit in healthy adults when ingested as Enterolactis in drinkable vials containing no less than one billion CFU at the end of shelf life.

Published

2018

44. Promysalin is a salicylate-containing antimicrobial with a cell-membrane-disrupting mechanism of action on Gram-positive bacteria.

Author

Kaduskar RD, Scala GD, Al Jabri ZJH, Arioli S, Musso L, Oggioni MR, Dallavalle S, and Mora D

Subjects

Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Anti-Infective Agents chemistry, Lipid Bilayers chemistry, Microbial Sensitivity Tests, Molecular Structure, Pyrrolidines chemistry, Saccharomyces cerevisiae drug effects, Salicylamides chemistry, Anti-Infective Agents pharmacology, Cell Membrane drug effects, Gram-Positive Bacteria drug effects, Pyrrolidines pharmacology, Salicylamides pharmacology, Salicylates chemistry

Abstract

Promysalin was previously described as a narrow spectrum molecule with a unique species-specific activity against Pseudomonas aeruginosa. Here we demonstrate that promysalin is active against Gram-positive and Gram-negative bacteria using a microdilution assay. Promysalin acts on Gram-positive bacteria with a mechanism of action involving cell membrane damage with leakage of intracellular components. The evaluation of MICs and MBCs on 11 promysalin analogs, synthesized utilizing diverted total synthesis, allowed the identification of the structural moieties potentially involved in cell membrane interaction and damage. The mechanism of action of promysalin against Gram-negative bacteria is still not clarified, even if a synergistic effect with the bisguanidine chlorhexidine on cell membrane disruption has been observed.

Published

2017

45. Viromes As Genetic Reservoir for the Microbial Communities in Aquatic Environments: A Focus on Antimicrobial-Resistance Genes.

Author

Colombo S, Arioli S, Neri E, Della Scala G, Gargari G, and Mora D

Abstract

Despite studies of viromes isolated from aquatic environments are becoming increasingly frequent, most of them are limited to the characterization of viral taxonomy. Bacterial reads in viromes are abundant but the extent to which this genetic material is playing a role in the ecology of aquatic microbiology remains unclear. To this aim, we developed of a useful approach for the characterization of viral and microbial communities of aquatic environments with a particular focus on the identification of microbial genes harbored in the viromes. Virus-like particles were isolated from water samples collected across the Lambro River, from the spring to the high urbanized Milan area. The derived viromes were analyzed by shotgun metagenomic sequencing looking for the presence, relative abundance of bacterial genes with particular focus on those genes involved in antimicrobial resistance mechanisms. Antibiotic and heavy metal resistance genes have been identified in all virome samples together with a high abundance of reads assigned to cellular processes and signaling. Virome data compared to those identified in the microbiome isolated from the same sample revealed differences in terms of functional categories and their relative abundance. To verify the role of aquatic viral population in bacterial gene transfer, water-based mesocosms were perturbed or not perturbed with a low dose of tetracycline. The results obtained by qPCR assays revealed variation in abundance of tet genes in the virome and microbiome highlighting a relevant role of viral populations in microbial gene mobilization.

Published

2017

46. Time- and strain-specific downregulation of intestinal EPAS1 via miR-148a by Bifidobacterium bifidum.

Author

Taibi A, Singh N, Chen J, Arioli S, Guglielmetti S, and Comelli EM

Subjects

Animals, Basic Helix-Loop-Helix Transcription Factors genetics, Caco-2 Cells, Cecum metabolism, Cecum microbiology, Down-Regulation, Humans, Intestinal Mucosa metabolism, Male, Mice, Mice, Inbred C57BL, MicroRNAs genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Bifidobacterium bifidum, Intestines microbiology, MicroRNAs metabolism, Probiotics administration & dosage

Abstract

Scope: Bifidobacteria play a role in intestinal homeostasis but molecular mechanisms remain underinvestigated. The aim of this study was to assess if probiotic Bifidobacterium strains alter expression of intestinal microRNA and downstream target gene response., Methods and Results: The expression of miR-148a and its validated target endothelial PAS domain protein 1 (EPAS1) was analyzed in Caco-2 cells and mice cecum in response to Bifidobacterium bifidum MIMBb75, B. bifidum NCC390, or Bifidobacterium longum NCC2705. In vitro, exposure to B. bifidum MIMBb75, but not to B. bifidum NCC390 or B. longum NCC2705, increased the expression of miR-148a after 1 and 4 h (p < 0.01), but not after 24 h. In vivo, B. bifidum MIMBb75 administration to C57BL/6J mice increased miR-148a expression in the cecum after 2 but not 14 days (p < 0.05). The increase in miR-148a was accompanied by a decrease in EPAS1 expression in Caco-2 cells and cecum (p < 0.05). Silencing of miR-148a reversed B. bifidum MIMBb75 dependent downregulation of EPAS1., Conclusion: This study shows an early response of intestinal cells to B. bifidum MIMBb75 through miR-148a modulation. This brings a new concept of strain- and time-dependent bifidobacteria-host crosstalk via microRNA. Probiotic B. bifidum MIMBb75 may help attenuating EPAS1 overexpression associated with intestinal inflammation., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

47. Streptococcus thermophilus urease activity boosts Lactobacillus delbrueckii subsp. bulgaricus homolactic fermentation.

Author

Arioli S, Della Scala G, Remagni MC, Stuknyte M, Colombo S, Guglielmetti S, De Noni I, Ragg E, and Mora D

Subjects

Animals, Bacterial Proteins genetics, Fermentation, Lactobacillus delbrueckii genetics, Lactobacillus delbrueckii growth & development, Milk microbiology, Streptococcus thermophilus genetics, Streptococcus thermophilus growth & development, Urease genetics, Yogurt microbiology, Bacterial Proteins metabolism, Lactic Acid biosynthesis, Lactobacillus delbrueckii metabolism, Streptococcus thermophilus enzymology, Urease metabolism

Abstract

The proto-cooperation between Streptococcus thermophilus and Lactobacillus delbrueckii subsp. bulgaricus in the yogurt consortium enhances the growth rate and size of each population. In contrast, the independent growth of the two species in milk leads to a slower growth rate and a smaller population size. In this study, we report the first evidence that the urease activity of S. thermophilus increases the intracellular pH of L. delbrueckii in the absence of carbon source. However, in milk, in the presence of lactose the alkalizing effect of urea-derived ammonia was not detectable. Nevertheless, based on glucose consumption and lactic acid production at different pH in , L. delbrueckii showed an optimum of glycolysis and homolactic fermentation at alkaline pH values. In milk, we observed that ammonia provided by urea hydrolysis boosted lactic acid production in S. thermophilus and in L. delbrueckii when the species were grown alone or in combination. Therefore, we propose that urease activity acts as an altruistic cooperative trait, which is costly for urease-positive individuals but provides a local benefit because other individuals can take advantage of urease-dependent ammonia release., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

48. Airway Microbiome and Th17-mediated Inflammation in COPD Among HIV-infected Individuals in a Rural Ugandan Cohort (HLM)

Author

Charite University, Berlin, Germany

Published

2024

49. Effects of Oxygen Availability on Acetic Acid Tolerance and Intracellular pH in Dekkera bruxellensis.

Author

Capusoni C, Arioli S, Zambelli P, Moktaduzzaman M, Mora D, and Compagno C

Subjects

Dekkera growth & development, Hydrogen-Ion Concentration, Oxidative Stress drug effects, Acetic Acid pharmacology, Dekkera drug effects, Dekkera metabolism, Oxygen metabolism

Abstract

Unlabelled: The yeast Dekkera bruxellensis, associated with wine and beer production, has recently received attention, because its high ethanol and acid tolerance enables it to compete with Saccharomyces cerevisiae in distilleries that produce fuel ethanol. We investigated how different cultivation conditions affect the acetic acid tolerance of D. bruxellensis We analyzed the ability of two strains (CBS 98 and CBS 4482) exhibiting different degrees of tolerance to grow in the presence of acetic acid under aerobic and oxygen-limited conditions. We found that the concomitant presence of acetic acid and oxygen had a negative effect on D. bruxellensis growth. In contrast, incubation under oxygen-limited conditions resulted in reproducible growth kinetics that exhibited a shorter adaptive phase and higher growth rates than those with cultivation under aerobic conditions. This positive effect was more pronounced in CBS 98, the more-sensitive strain. Cultivation of CBS 98 cells under oxygen-limited conditions improved their ability to restore their intracellular pH upon acetic acid exposure and to reduce the oxidative damage to intracellular macromolecules caused by the presence of acetic acid. This study reveals an important role of oxidative stress in acetic acid tolerance in D. bruxellensis, indicating that reduced oxygen availability can protect against the damage caused by the presence of acetic acid. This aspect is important for optimizing industrial processes performed in the presence of acetic acid., Importance: This study reveals an important role of oxidative stress in acetic acid tolerance in D. bruxellensis, indicating that reduced oxygen availability can have a protective role against the damage caused by the presence of acetic acid. This aspect is important for the optimization of industrial processes performed in the presence of acetic acid., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2016

50. DNA-based taxonomic identification of basidiospores in hallucinogenic mushrooms cultivated in "grow-kits" seized by the police: LC-UV quali-quantitative determination of psilocybin and psilocin.

Author

Gambaro V, Roda G, Visconti GL, Arnoldi S, Casagni E, Dell'Acqua L, Farè F, Paladino E, Rusconi C, Arioli S, and Mora D

Subjects

Chromatography, Liquid, Spectrophotometry, Ultraviolet, Basidiomycota chemistry, DNA chemistry, Hallucinogens chemistry, Psilocybin analogs & derivatives, Psilocybin analysis

Abstract

The taxonomic identification of the biological material contained in the hallucinogenic mushrooms culture media, was carried out using a DNA-based approach, thus highlighting the usefulness of this approach in the forensic identification of illegal samples also when they are present as basidiospores mixed in culture media and spore-bearing fruiting body are not present. This approach is very useful as it allows the unequivocal identification of potentially illicit material before the cultivation and it enables to stop the material to the Customs and to destroy it due to its dangerousness without cultivating the "grow-kits" and without instructing a criminal case. In fact, even if psilocin and psilocybin and the whole mushrooms are illegal in many countries, there is no specific indication in the law about the so called "grow-kits", containing the spores. To confirm the data obtained by the taxonomic identification, a simple, reliable, efficient LC-UV method, using tryptamine as internal standard, suitable for the forensic quali-quantitative determination of psilocin and psilocybin in hallucinogenic mushroom was optimized, validated and applied to the mushrooms grown after the cultivation of the grow-kits seized by the judicial authority, with the authorization of the Ministry of Health. A cation exchange column was used in a gradient elution mode (Phase A: 50mMK2HPO4; 100mM NaCl pH=3 Phase B: methanol). The developed method was linear over the calibration range with a R(2)>0.9992 for both the analytes. The detection and quantification limits were respectively 0.01 and 0.1μg/mL for psilocybin and 0.05μg/mL and 0.1μg/mL for psilocin and the intra- and inter-day precision was satisfactory (coefficients of variation <2.0% for both the analytes). The content of psilocybin in the mushrooms grown from the seized "grow-kits" ranged from 1.02 to 7.60mg/g of dry vegetable material, while the content of psilocin from 0.415 to 8.36mg/g., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016