Your search keyword '"Martina Cirlini"' showing total 10 results

1. A Computational Understanding of Inter-Individual Variability in CYP2D6 Activity to Investigate the Impact of Missense Mutations on Ochratoxin A Metabolism

Author

Jean Lou C. M. Dorne, Martina Cirlini, Jochem Louisse, Lorenzo Pedroni, Gianni Galaverna, and Luca Dellafiora

Subjects

ochratoxin A, CYP2D6, polymorphism metabolism, toxicokinetics, food safety, hazard assessment, Medicine

Abstract

Cytochrome P-450 (CYP) enzymes have a key role in the metabolism of xenobiotics of food origin, and their highly polymorphic nature concurs with the diverse inter-individual variability in the toxicokinetics (TK) and toxicodynamics (TD) of food chemicals. Ochratoxin A is a well-known mycotoxin which contaminates a large variety of food and is associated with food safety concerns. It is a minor substrate of CYP2D6, although the effects of CYP2D6 polymorphisms on its metabolism may be overlooked. Insights on this aspect would provide a useful mechanistic basis for a more science-based hazard assessment, particularly to integrate inter-individual differences in CYP2D6 metabolism. This work presents a molecular modelling approach for the analysis of mechanistic features with regard to the metabolic capacity of CYP2D6 variants to oxidise a number of substrates. The outcomes highlighted that a low-frequency CYP2D6 variant (CYP2D6*110) is likely to enhance ochratoxin A oxidation with possible consequences on TK and TD. It is therefore recommended to further analyse such TK and TD consequences. Generally speaking, we propose the identification of mechanistic features and parameters that could provide a semi-quantitative means to discriminate ligands based on the likelihood to undergo transformation by CYP2D6 variants. This would support the development of a fit-for-purpose pipeline which can be extended to a tool allowing for the bulk analysis of a large number of compounds. Such a tool would ultimately include inter-phenotypic differences of polymorphic xenobiotic-metabolising enzymes in the hazard assessment and risk characterisation of food chemicals.

Published

2022

2. Open Field Study of Some Zea mays Hybrids, Lipid Compounds and Fumonisins Accumulation

Author

Paola Giorni, Chiara Dall'Asta, Massimo Reverberi, Valeria Scala, Matteo Ludovici, Martina Cirlini, Gianni Galaverna, Corrado Fanelli, and Paola Battilani

Subjects

maize, Fusarium verticillioides, sphingolipids, oxylipins, mycotoxin, Medicine

Abstract

Lipid molecules are increasingly recognized as signals exchanged by organisms interacting in pathogenic and/or symbiotic ways. Some classes of lipids actively determine the fate of the interactions. Host cuticle/cell wall/membrane components such as sphingolipids and oxylipins may contribute to determining the fate of host–pathogen interactions. In the present field study, we considered the relationship between specific sphingolipids and oxylipins of different hybrids of Zea mays and fumonisin by F. verticillioides, sampling ears at different growth stages from early dough to fully ripe. The amount of total and free fumonisin differed significantly between hybrids and increased significantly with maize ripening. Oxylipins and phytoceramides changed significantly within the hybrids and decreased with kernel maturation, starting from physiological maturity. Although the correlation between fumonisin accumulation and plant lipid profile is certain, the data collected so far cannot define a cause-effect relationship but open up new perspectives. Therefore, the question—“Does fumonisin alter plant lipidome or does plant lipidome modulate fumonisin accumulation?”—is still open.

Published

2015

3. Deoxynivalenol & Deoxynivalenol-3-Glucoside Mitigation through Bakery Production Strategies: Effective Experimental Design within Industrial Rusk-Making Technology

Author

Silvia Generotti, Martina Cirlini, Alexandra Malachova, Michael Sulyok, Franz Berthiller, Chiara Dall'Asta, and Michele Suman

Subjects

deoxynivalenol, deoxynivalenol-3-glucoside, design of experiment, food processing, baking, rusks, Medicine

Abstract

In the scientific field, there is a progressive awareness about the potential implications of food processing on mycotoxins especially concerning thermal treatments. High temperatures may cause, in fact, transformation or degradation of these compounds. This work is aimed to study the fate of mycotoxins during bakery processing, focusing on deoxynivalenol (DON) and deoxynivalenol-3-glucoside (DON3Glc), along the chain of industrial rusk production. Starting from naturally contaminated bran, we studied how concentrations of DON and DON3Glc are influenced by modifying ingredients and operative conditions. The experiments were performed using statistical Design of Experiment (DoE) schemes to synergistically explore the relationship between mycotoxin reduction and the indicated processing transformation parameters. All samples collected during pilot plant experiments were analyzed with an LC-MS/MS multimycotoxin method. The obtained model shows a good fitting, giving back relevant information in terms of optimization of the industrial production process, in particular suggesting that time and temperature in baking and toasting steps are highly relevant for minimizing mycotoxin level in rusks. A reduction up to 30% for DON and DON3Glc content in the finished product was observed within an acceptable technological range.

Published

2015

4. Impact of Naturally Contaminated Substrates on Alphitobius diaperinus and Hermetia illucens: Uptake and Excretion of Mycotoxins

Author

Giulia Leni, Martina Cirlini, Johan Jacobs, Stefaan Depraetere, Natasja Gianotten, Stefano Sforza, and Chiara Dall’Asta

Subjects

Alphitobius diaperinus, Hermetia illucens, edible insects, mycotoxin, uptake, excretion, feed safety, Medicine

Abstract

Insects are considered a suitable alternative feed for livestock production and their use is nowadays regulated in the European Union by the European Commission Regulation No. 893/2017. Insects have the ability to grow on a different spectrum of substrates, which could be naturally contaminated by mycotoxins. In the present work, the mycotoxin uptake and/or excretion in two different insect species, Alphitobius diaperinus (Lesser Mealworm, LM) and Hermetia illucens (Black Soldier Fly, BSF), grown on naturally contaminated substrates, was evaluated. Among all the substrates of growth tested, the Fusarium toxins deoxynivalenol (DON), fumonisin 1 and 2 (FB1 and FB2) and zearalenone (ZEN) were found in those based on wheat and/or corn. No mycotoxins were detected in BSF larvae, while quantifiable amount of DON and FB1 were found in LM larvae, although in lower concentration than those detected in the growing substrates and in the residual fractions. Mass balance calculations indicated that BSF and LM metabolized mycotoxins in forms not yet known, accumulating them in their body or excreting in the faeces. Further studies are required in this direction due to the future employment of insects as feedstuff.

Published

2019

5. Acrylamide Reduction Strategy in Combination with Deoxynivalenol Mitigation in Industrial Biscuits Production

Author

Michele Suman, Silvia Generotti, Martina Cirlini, and Chiara Dall’Asta

Subjects

acrylamide, deoxynivalenol, multiple mitigation strategies, design of experiments, bakery food processing, biscuits, Medicine

Abstract

Acrylamide is formed during baking in some frequently consumed food products. It is proven to be carcinogenic in rodents and a probable human carcinogen. Thus, the food industry is working to find solutions to minimize its formation during processing. To better understand the sources of its formation, the present study is aimed at investigating how acrylamide concentration may be influenced by bakery-making parameters within a parallel strategy of mycotoxin mitigation (focusing specifically on deoxynivalenol—DON) related to wholegrain and cocoa biscuit production. Among Fusarium toxins, DON is considered the most important contaminant in wheat and related bakery products, such as biscuits, due to its widespread occurrence. Exploiting the power of a Design of Experiments (DoE), several conditions were varied as mycotoxin contamination levels of the raw materials, recipe formulation, pH value of dough, and baking time/temperature; each selected treatment was varied within a defined range according to the technological requirements to obtain an appreciable product for consumers. Experiments were performed in a pilot-plant scale in order to simulate an industrial production and samples were extracted and analysed by HPLC-MS/MS system. Applying a baking temperature of 200 °C at the highest sugar dose, acrylamide increased its concentration, and in particular, levels ranged from 306 ± 16 µg/Kg d.m. and 400 ± 27 µg/Kg d.m. in biscuits made without and with the addition of cocoa, respectively. Conversely, using a baking temperature of 180 °C in the same conditions (pH, baking time, and sugar concentrations), acrylamide values remained below 125 ± 14 µg/Kg d.m. and 156 ± 15 µg/Kg d.m. in the two final products. The developed predictive model suggested how some parameters can concretely contribute to limit acrylamide formation in the final product, highlighting a significant role of pH value (correlated also to sodium bicarbonate raising agent), followed by baking time/temperature parameters. In particular, the increasing range of baking conditions influenced in a limited way the final acrylamide content within the parallel effective range of DON reduction. The study represents a concrete example of how the control and optimization of selected operative parameters may lead to multiple mitigation of specific natural/process contaminants in the final food products, though still remaining in the sensorial satisfactory range.

Published

2019

6. Durum Wheat (Triticum Durum Desf.) Lines Show Different Abilities to Form Masked Mycotoxins under Greenhouse Conditions

Author

Martina Cirlini, Silvia Generotti, Andrea Dall'Erta, Pietro Lancioni, Gianluca Ferrazzano, Andrea Massi, Gianni Galaverna, and Chiara Dall'Asta

Subjects

masked mycotoxins, fusarium head blight, pasta, deoxynivalenol, virulence factor, Medicine

Abstract

Deoxynivalenol (DON) is the most prevalent trichothecene in Europe and its occurrence is associated with infections of Fusarium graminearum and F. culmorum, causal agents of Fusarium head blight (FHB) on wheat. Resistance to FHB is a complex character and high variability occurs in the relationship between DON content and FHB incidence. DON conjugation to glucose (DON-3-glucoside, D3G) is the primary plant mechanism for resistance towards DON accumulation. Although this mechanism has been already described in bread wheat and barley, no data are reported so far about durum wheat, a key cereal in the pasta production chain. To address this issue, the ability of durum wheat to detoxify and convert deoxynivalenol into D3G was studied under greenhouse controlled conditions. Four durum wheat varieties (Svevo, Claudio, Kofa and Neodur) were assessed for DON-D3G conversion; Sumai 3, a bread wheat variety carrying a major QTL for FHB resistance (QFhs.ndsu-3B), was used as a positive control. Data reported hereby clearly demonstrate the ability of durum wheat to convert deoxynivalenol into its conjugated form, D3G.

Published

2013

7. Are Treated Celiac Patients at Risk for Mycotoxins? An Italian Case-Study

Author

Martina Cirlini, Teresa Mazzeo, Leda Roncoroni, Vincenza Lombardo, Luca Elli, Maria T. Bardella, Carlo Agostoni, Luisa Doneda, Furio Brighenti, Chiara Dall’Asta, and Nicoletta Pellegrini

Subjects

deoxynivalenol (DON), zearalenone (ZEN), fumonisin B1 (FB1), human urine, celiac patients, Medicine

Abstract

Urinary biomarkers of mycotoxin exposure were evaluated in a group of celiac patients (n = 55) and in a control group of healthy subjects (n = 50) following their habitual diet. Deoxynivalenol (DON), zearalenone (ZEN), and fumonisin B1 (FB1) were monitored in 105 urinary samples collected from the two groups. Dietary habits were also recorded through compilation of a seven-day weighed dietary diary. Biomarkers of mycotoxin exposure were detected in 21 celiac patients and in 15 control subjects, corresponding to about 34% of total participants. In particular, ZEN was the most detected mycotoxin among all the studied subjects with a total of 19 positive cases. Results did not show a statistically significant difference in mycotoxin exposure between the two groups, and the presence of specific mycotoxins was not related to the intake of any particular food category. Our findings suggest little urgency of specific regulation for gluten free products, although the prevalence of exposure observed in free-living diets of both celiac and healthy subjects underlines the need of a constant surveillance on mycotoxins occurrence at large.

Published

2016

8. Acrylamide Reduction Strategy in Combination with Deoxynivalenol Mitigation in Industrial Biscuits Production

Author

Martina Cirlini, Michele Suman, Silvia Generotti, and Chiara Dall'Asta

Subjects

Food industry, multiple mitigation strategies, Health, Toxicology and Mutagenesis, Flour, deoxynivalenol, lcsh:Medicine, Food Contamination, biscuits, Raw material, Toxicology, 01 natural sciences, Article, chemistry.chemical_compound, 0404 agricultural biotechnology, Cooking, Food-Processing Industry, Food science, Chocolate, Sugar, Mycotoxin, Triticum, Leavening agent, Sodium bicarbonate, business.industry, 010401 analytical chemistry, lcsh:R, Bread, 04 agricultural and veterinary sciences, 040401 food science, 0104 chemical sciences, design of experiments, chemistry, Acrylamide, acrylamide, Trichothecenes, business, Food Analysis, Food contaminant, bakery food processing

Abstract

Acrylamide is formed during baking in some frequently consumed food products. It is proven to be carcinogenic in rodents and a probable human carcinogen. Thus, the food industry is working to find solutions to minimize its formation during processing. To better understand the sources of its formation, the present study is aimed at investigating how acrylamide concentration may be influenced by bakery-making parameters within a parallel strategy of mycotoxin mitigation (focusing specifically on deoxynivalenol&mdash, DON) related to wholegrain and cocoa biscuit production. Among Fusarium toxins, DON is considered the most important contaminant in wheat and related bakery products, such as biscuits, due to its widespread occurrence. Exploiting the power of a Design of Experiments (DoE), several conditions were varied as mycotoxin contamination levels of the raw materials, recipe formulation, pH value of dough, and baking time/temperature, each selected treatment was varied within a defined range according to the technological requirements to obtain an appreciable product for consumers. Experiments were performed in a pilot-plant scale in order to simulate an industrial production and samples were extracted and analysed by HPLC-MS/MS system. Applying a baking temperature of 200 &deg, C at the highest sugar dose, acrylamide increased its concentration, and in particular, levels ranged from 306 &plusmn, 16 &micro, g/Kg d.m. and 400 &plusmn, 27 &micro, g/Kg d.m. in biscuits made without and with the addition of cocoa, respectively. Conversely, using a baking temperature of 180 &deg, C in the same conditions (pH, baking time, and sugar concentrations), acrylamide values remained below 125 &plusmn, 14 &micro, g/Kg d.m. and 156 &plusmn, 15 &micro, g/Kg d.m. in the two final products. The developed predictive model suggested how some parameters can concretely contribute to limit acrylamide formation in the final product, highlighting a significant role of pH value (correlated also to sodium bicarbonate raising agent), followed by baking time/temperature parameters. In particular, the increasing range of baking conditions influenced in a limited way the final acrylamide content within the parallel effective range of DON reduction. The study represents a concrete example of how the control and optimization of selected operative parameters may lead to multiple mitigation of specific natural/process contaminants in the final food products, though still remaining in the sensorial satisfactory range.

Published

2019

9. Deoxynivalenol & Deoxynivalenol-3-Glucoside Mitigation through Bakery Production Strategies: Effective Experimental Design within Industrial Rusk-Making Technology

Author

Michele Suman, Michael Sulyok, Silvia Generotti, Chiara Dall'Asta, Martina Cirlini, Franz Berthiller, and Alexandra Malachová

Subjects

Dietary Fiber, baking, Health, Toxicology and Mutagenesis, Industrial production, deoxynivalenol, design of experiment, lcsh:Medicine, Food Contamination, Toxicology, Article, chemistry.chemical_compound, Glucosides, deoxynivalenol-3-glucoside, food processing, Production (economics), Cooking, Food-Processing Industry, Mycotoxin, Models, Statistical, Bran, rusks, business.industry, lcsh:R, Pulp and paper industry, Biotechnology, Deoxynivalenol-3-glucoside, Pilot plant, chemistry, Food processing, Environmental science, Trichothecenes, business, Food contaminant

Abstract

In the scientific field, there is a progressive awareness about the potential implications of food processing on mycotoxins especially concerning thermal treatments. High temperatures may cause, in fact, transformation or degradation of these compounds. This work is aimed to study the fate of mycotoxins during bakery processing, focusing on deoxynivalenol (DON) and deoxynivalenol-3-glucoside (DON3Glc), along the chain of industrial rusk production. Starting from naturally contaminated bran, we studied how concentrations of DON and DON3Glc are influenced by modifying ingredients and operative conditions. The experiments were performed using statistical Design of Experiment (DoE) schemes to synergistically explore the relationship between mycotoxin reduction and the indicated processing transformation parameters. All samples collected during pilot plant experiments were analyzed with an LC-MS/MS multimycotoxin method. The obtained model shows a good fitting, giving back relevant information in terms of optimization of the industrial production process, in particular suggesting that time and temperature in baking and toasting steps are highly relevant for minimizing mycotoxin level in rusks. A reduction up to 30% for DON and DON3Glc content in the finished product was observed within an acceptable technological range.

Published

2015

10. Open Field Study of Some Zea mays Hybrids, Lipid Compounds and Fumonisins Accumulation

Author

Matteo Ludovici, Valeria Scala, Paola Battilani, Martina Cirlini, Paola Giorni, Massimo Reverberi, Chiara Dall'Asta, Corrado Fanelli, and Gianni Galaverna

Subjects

Fusarium, oxylipins, Health, Toxicology and Mutagenesis, Cuticle, lcsh:Medicine, Food Contamination, Fusarium verticillioides, maize, Fumonisins, Zea mays, Article, mycotoxin, Cell wall, chemistry.chemical_compound, Fumonisin, Botany, Mycotoxin, sphingolipids, biology, lcsh:R, food and beverages, Ripening, Lipidome, biology.organism_classification, Sphingolipid, food contamination, food microbiology, fumonisins, fusarium, host-pathogen interactions, Oxylipins, toxicology, health toxicology and mutagenesis, chemistry, Biochemistry, Host-Pathogen Interactions, Food Microbiology, Settore AGR/12 - PATOLOGIA VEGETALE

Abstract

Lipid molecules are increasingly recognized as signals exchanged by organisms interacting in pathogenic and/or symbiotic ways. Some classes of lipids actively determine the fate of the interactions. Host cuticle/cell wall/membrane components such as sphingolipids and oxylipins may contribute to determining the fate of host–pathogen interactions. In the present field study, we considered the relationship between specific sphingolipids and oxylipins of different hybrids of Zea mays and fumonisin by F. verticillioides, sampling ears at different growth stages from early dough to fully ripe. The amount of total and free fumonisin differed significantly between hybrids and increased significantly with maize ripening. Oxylipins and phytoceramides changed significantly within the hybrids and decreased with kernel maturation, starting from physiological maturity. Although the correlation between fumonisin accumulation and plant lipid profile is certain, the data collected so far cannot define a cause-effect relationship but open up new perspectives. Therefore, the question—“Does fumonisin alter plant lipidome or does plant lipidome modulate fumonisin accumulation?”—is still open.

Published

2015