Your search keyword '"Sforza, Stefano"' showing total 11 results

1. Common wheat determination in durum wheat samples through LC/MS analysis of gluten peptides

Author

Prandi, Barbara, Bencivenni, Mariangela, Tedeschi, Tullia, Marchelli, Rosangela, Dossena, Arnaldo, Galaverna, Gianni, and Sforza, Stefano

Published

2012

2. Qualitative and quantitative determination of peptides related to celiac disease in mixtures derived from different methods of simulated gastrointestinal digestion of wheat products.

Author

Prandi, Barbara, Faccini, Andrea, Tedeschi, Tullia, Cammerata, Alessandro, Sgrulletta, Daniela, D'Egidio, Maria Grazia, Galaverna, Gianni, and Sforza, Stefano

Subjects

WHEAT products, CELIAC disease, DURUM wheat, PEPTIDES, DIGESTION, WHEAT

Abstract

During wheat digestion, gluten-derived proteolytic resistant peptides are generated, some of them involved in celiac disease. In vitro digestion models able to mimic the peptides generated in the human gastrointestinal tract are extremely useful to assess the pathogenicity of wheat-derived products. In this paper, samples belonging to three different durum wheat varieties were taken at six different steps of the pasta production chain and two different digestion models present in the literature were assessed on the different samples: a more complex one using artificial fluids simulating the exact composition of digestive juices, and a simplified method based on a peptic-tryptic/chymotryptic treatment of wheat ethanolic extract. An extensive characterization of the peptides generated using two in vitro digestion models was performed through LC-MS/MS techniques and the two methods were compared in order to evaluate qualitative and quantitative differences and their possible implications for varietal screening. Strong differences in the type of peptides produced with the two methods were detected, indicating that the simplified method can still be used for a varietal screening but is not representative of the peptides really generated after physiological human digestion. Results indicate a clear necessity of physiologically accurate models for simulating human gastrointestinal digestion of wheat products. [ABSTRACT FROM AUTHOR]

Published

2014

3. The Diverse Potential of Gluten from Different Durum Wheat Varieties in Triggering Celiac Disease: A Multilevel In Vitro, Ex Vivo and In Vivo Approach.

Author

Gaiani, Federica, Graziano, Sara, Boukid, Fatma, Prandi, Barbara, Bottarelli, Lorena, Barilli, Amelia, Dossena, Arnaldo, Marmiroli, Nelson, Gullì, Mariolina, de'Angelis, Gian Luigi, and Sforza, Stefano

Abstract

The reasons behind the increasing prevalence of celiac disease (CD) worldwide are still not fully understood. This study adopted a multilevel approach (in vitro, ex vivo, in vivo) to assess the potential of gluten from different wheat varieties in triggering CD. Peptides triggering CD were identified and quantified in mixtures generated from simulated gastrointestinal digestion of wheat varieties (n = 82). Multivariate statistics enabled the discrimination of varieties generating low impact on CD (e.g., Saragolla) and high impact (e.g., Cappelli). Enrolled subjects (n = 46) were: 19 healthy subjects included in the control group; 27 celiac patients enrolled for the in vivo phase. Celiacs were divided into a gluten-free diet group (CD-GFD), and a GFD with Saragolla-based pasta group (CD-Sar). The diet was followed for 3 months. Data were compared between CD-Sar and CD-GFD before and after the experimental diet, demonstrating a limited ability of Saragolla to trigger immunity, although not comparable to a GFD. Ex vivo studies showed that Saragolla and Cappelli activated immune responses, although with great variability among patients. The diverse potential of durum wheat varieties in triggering CD immune response was demonstrated. Saragolla is not indicated for celiacs, yet it has a limited potential to trigger adverse immune response. [ABSTRACT FROM AUTHOR]

Published

2020

4. Characterization of Celiac Disease-Related Epitopes and Gluten Fractions, and Identification of Associated Loci in Durum Wheat.

Author

Taranto, Francesca, D'Agostino, Nunzio, Catellani, Marcello, Laviano, Luca, Ronga, Domenico, Milc, Justyna, Prandi, Barbara, Boukid, Fatma, Sforza, Stefano, Graziano, Sara, Gullì, Mariolina, Visioli, Giovanna, Marmiroli, Nelson, Badeck, Franz-W., Minervini, Anna Paola, Pecorella, Ivano, Pecchioni, Nicola, De Vita, Pasquale, and Francia, Enrico

Subjects

GLUTELINS, DURUM wheat, GLUTEN, WHEAT, EPITOPES, TRANSCRIPTION factors

Abstract

While durum wheat is a major food source in Mediterranean countries, storage (i.e., gluten) proteins are however responsible for celiac disease (CD), a serious autoimmune disease that occurs in genetically predisposed subjects. Different gluten epitopes—defined as "immunogenic" (IP) and "toxic" (TP) peptides—are involved in the pathology and their content in wheat grain depends on environmental and genetic factors. Detection of IP and TP is not trivial, and no work has been conducted so far to identify the genomic regions associated with their accumulation in wheat. In the present study, a genome-wide association study was performed on a durum wheat collection to identify marker–trait associations (MTAs) between 5730 high quality SNPs and the accumulation of CD-related peptides and gluten protein composition measured in two consecutive cropping seasons (2015/2016 and 2016/2017). High-molecular-weight glutenin subunits (HMW-GS) were more stable between the two years, and differences in total gluten proteins were mainly due to low-molecular-weight glutenin subunits (LMW-GS) and accumulation of gliadins. In the first instance, association tests were conducted on yellow pigment content (YP), a highly inheritable trait with a well-known genetic basis, and several significant MTAs were found corresponding to loci already known for being related to YP. These findings showed that MTAs found for the rest of the measured traits were reliable. In total, 28 significant MTAs were found for gluten composition, while 14 were found to be associated with IP and TP. Noteworthy, neither significant (−log10p > 4.7) nor suggestive (−log10p > 3.3) MTAs for the accumulation of CD-triggering epitopes were found on Gli-A1/Glu-A3 and Gli-B1/Glu-B3 loci, thus suggesting regulatory rather than structural gene effect. A PBF transcription factor on chromosome 5B, known to be involved in the regulation of the expression of CD-related peptides, was identified among the positional candidate genes in the LD-decay range around significant SNPs. Results obtained in the present study provide useful insights and resources for the long-term objective of selecting low-toxic durum wheat varieties while maintaining satisfactory gluten quality. [ABSTRACT FROM AUTHOR]

Published

2020

5. Tracking celiac disease-triggering peptides and whole wheat flour quality as function of germination kinetics.

Author

Boukid, Fatma, Vittadini, Elena, Sforza, Stefano, Prandi, Barbara, and Francia, Enrico

Subjects

*PEPTIDES, *FLOUR, *CELIAC disease, *LIQUID chromatography-mass spectrometry, *FOOD research

Abstract

Germination is already a well-accepted process by consumers with many products made from sprouted seeds or containing limited amounts of flour form sprouted grains. The present work aimed assessing the usefulness of germination in reducing gluten peptides associated with celiac disease, at the same time evaluating some technological features of the obtained germinated wheat. In the first part of the work, celiac disease (CD)-triggering peptides were tracked as a function of germination kinetics (from day 1 to day 6). Using simulated gastrointestinal digestion and liquid chromatography coupled to mass spectrometry, ten celiac disease triggering peptides were identified: seven peptides presumably involved in the adaptive immune response (TI) and three peptides mainly involved in the innate immune response (TT). All the identified peptides belonged to gliadins. TI track pattern showed three phases: the first two days displayed a significant degradation, a stability phase was observed from day 3 to day 5, and finally a drastic reduction occurred on the 6th day. For TT peptides, important degradation was exclusively observed at the 6th day. In the second part, some techno-functional features of germinated whole wheat flour were assessed to estimate its potential as an alternative to conventional flour. Functionality comparison of the non-germinated versus germinated flours revealed that germination significantly influenced solvents retention capacities as well as swelling and solubility. Thus, with a reduced amount of celiac disease triggering peptides, but also with different technological behavior compared to traditional wheat flour. [ABSTRACT FROM AUTHOR]

Published

2018

6. A Complete Mass Spectrometry (MS)-Based Peptidomic Description of Gluten Peptides Generated During In Vitro Gastrointestinal Digestion of Durum Wheat: Implication for Celiac Disease.

Author

Boukid, Fatma, Prandi, Barbara, Faccini, Andrea, and Sforza, Stefano

Subjects

*CELIAC disease, *DURUM wheat, *MASS spectrometry, *PEPTIDES, *GLUTEN, *DIGESTION

Abstract

Resistance of gluten to gastrointestinal digestion is involved in immune-mediated adverse reactions to wheat, since several peptides produced by the incomplete digestion are able to trigger, in predisposed individuals, the immune response responsible, for instance, of celiac disease (CD) and other adverse reactions. Even if several peptides have been identified, an exhaustive description of the peptidome generated by wheat digestion is lacking. To this end, in the present work, durum wheat proteins were fractionated, digested, and then subjected to various proteomic techniques, including single stage and multiple stage mass spectrometry (MS) (SDS-PAGE, UPLC/ESI-MS, UPLC/ESI-MS/MS, and LTQ-Orbitrap). Based on SDS-PAGE, although proteins were severely degraded after in vitro gastrointestinal digestion, some differences were observed among protein profile of the different digests. Through untargeted UPLC techniques, 227 peptide sequences were identified, with only few sequences shared by the different digests. In particular, 9 gluten peptides involved in CD were identified. Based on target proteomic, the quantification of these peptides revealed significant (p ≤ 0.05) differences among the different extracts. Taken together, all the proteomic tools confirmed that gluten digestion is closely related to the matrix regardless of wheat genotype. [ABSTRACT FROM AUTHOR]

Published

2019

7. Insights into a century of breeding of durum wheat in Tunisia: The properties of flours and starches isolated from landraces, old and modern genotypes.

Author

Boukid, Fatma, Vittadini, Elena, Prandi, Barbara, Mattarozzi, Monica, Marchini, Mia, Sforza, Stefano, Sayar, Rhouma, Seo, Yong Weon, Yacoubi, Ines, and Mejri, Mondher

Subjects

*GENOTYPES, *DURUM wheat, *ALBUMINS, *GLIADINS, *PLANT breeding

Abstract

Abstract The present work had a dual objective: to assess if the evolution of durum wheat from landraces to modern genotypes as function of breeding programs impacted proteins and starch fractions, as well as starch properties. Flours and starches isolated from Tunisian durum wheat landraces, old and modern lines were thoroughly characterized for their compositional, morphological, and gel properties. Statistical results showed significant (p ≤ 0.05) differences among the studied set. Protein and starch fractions assessment revealed that modern genotypes had the highest total starch and albumin contents, old genotypes had the highest amylose and glutenin contents, and landraces had the highest protein and gliadin contents. Starch properties screening allowed several findings: no significant (p > 0.05) differences were found among starch granules morphology, significant (p ≤ 0.05) differences were recorded in terms of technological properties, and old genotypes had the highest starch gel hardness. Overall, these results indicated that the influence of genotype on flour and starch properties was more relevant than breeding history. Highlights • Landraces, modern and old genotypes properties were compared. • High genetic diversity was revealed among the studied genotypes. • Low variability in starch granules morphology and technological properties. • Genotype was more relevant than breeding history. [ABSTRACT FROM AUTHOR]

Published

2018

8. Genetic and environmental factors affecting pathogenicity of wheat as related to celiac disease.

Author

Prandi, Barbara, Mantovani, Paola, Galaverna, Gianni, and Sforza, Stefano

Subjects

*PATHOGENIC microorganisms, *CELIAC disease, *MOLECULAR weights, *HLA histocompatibility antigens, WHEAT genetics

Abstract

Abstract: Gluten proteins are the basis of the rheological properties of wheat derived products, such as bread and pasta. Their particular amino acidic composition (high proline and glutamine content) is responsible for the poor gluten digestibility. Some of the high molecular weight peptides that are generated in the gastrointestinal tract are involved in an autoimmune entheropathy called celiac disease. In this work we compared the amount of peptides containing sequences involved in adaptive and immune responses, which were produced after simulated gastrointestinal digestion of prolamins extracted from different durum wheat varieties and in-bred lines. Peptides containing sequences involved in celiac disease were quantified using an isotopically labeled peptide as internal standard. The results demonstrated a very high variability in the amount of pathogenic peptides produced by different lines, showing a strong contribution of the genetic component. At the same time, the variability in total protein and gluten content was lower; the weak correlation between pathogenic peptides and the amount of gluten proteins gives rise to the possibility of a varietal selection aimed to maintain good rheological properties, but simultaneously reducing the exposure to peptides eliciting an immunological response in celiac predisposed subjects. These varieties might be useful for celiac disease prevention. [Copyright &y& Elsevier]

Published

2014

9. Characterization of Celiac Disease-Related Epitopes and Gluten Fractions, and Identification of Associated Loci in Durum Wheat

Author

Francesca, Taranto, D'Agostino, Nunzio, Marcello, Catellani, Luca, Laviano, Ronga, Domenico, Justyna, Milc, Barbara, Prandi, Fatma, Boukid, Stefano, Sforza, Graziano, ANNA SARA, Mariolina, Gullì, Giovanna, Visioli, Nelson, Marmiroli, Badeck, Franz-W., Anna Paola Minervini, Ivano, Pecorella, Nicola, Pecchioni, DE VITA, PASQUALE ANDREA, Enrico, Francia, Indústries Alimentàries, Funcionalitat i Seguretat Alimentària, Taranto, Francesca, D’Agostino, Nunzio, Catellani, Marcello, Laviano, Luca, Ronga, Domenico, Milc, Justyna, Prandi, Barbara, Boukid, Fatma, Sforza, Stefano, Graziano, Sara, Gullì, Mariolina, Visioli, Giovanna, Marmiroli, Nelson, Badeck, Franz-W., Minervini, Anna Paola, Pecorella, Ivano, Pecchioni, Nicola, De Vita, Pasquale, and Francia, Enrico

Subjects

toxic peptides, lcsh:Agriculture, 663/664, durum wheat, association mapping, gluten protein, gliadin fraction, toxic peptides, immunogenic peptides, Association mapping, Durum wheat, Gliadin fraction, Gluten protein, Immunogenic peptides, Toxic peptides, immunogenic peptides, lcsh:S, durum wheat, food and beverages, gluten protein, association mapping, gliadin fraction

Abstract

While durum wheat is a major food source in Mediterranean countries, storage (i.e., gluten) proteins are however responsible for celiac disease (CD), a serious autoimmune disease that occurs in genetically predisposed subjects. Different gluten epitopes—defined as “immunogenic” (IP) and “toxic” (TP) peptides—are involved in the pathology and their content in wheat grain depends on environmental and genetic factors. Detection of IP and TP is not trivial, and no work has been conducted so far to identify the genomic regions associated with their accumulation in wheat. In the present study, a genome-wide association study was performed on a durum wheat collection to identify marker–trait associations (MTAs) between 5730 high quality SNPs and the accumulation of CD-related peptides and gluten protein composition measured in two consecutive cropping seasons (2015/2016 and 2016/2017). High-molecular-weight glutenin subunits (HMW-GS) were more stable between the two years, and differences in total gluten proteins were mainly due to low-molecular-weight glutenin subunits (LMW-GS) and accumulation of gliadins. In the first instance, association tests were conducted on yellow pigment content (YP), a highly inheritable trait with a well-known genetic basis, and several significant MTAs were found corresponding to loci already known for being related to YP. These findings showed that MTAs found for the rest of the measured traits were reliable. In total, 28 significant MTAs were found for gluten composition, while 14 were found to be associated with IP and TP. Noteworthy, neither significant (−log10p > 4.7) nor suggestive (−log10p > 3.3) MTAs for the accumulation of CD-triggering epitopes were found on Gli-A1/Glu-A3 and Gli-B1/Glu-B3 loci, thus suggesting regulatory rather than structural gene effect. A PBF transcription factor on chromosome 5B, known to be involved in the regulation of the expression of CD-related peptides, was identified among the positional candidate genes in the LD-decay range around significant SNPs. Results obtained in the present study provide useful insights and resources for the long-term objective of selecting low-toxic durum wheat varieties while maintaining satisfactory gluten quality. info:eu-repo/semantics/publishedVersion

Published

2020

10. LC/MS analysis of proteolytic peptides in wheat extracts for determining the content of the allergen amylase/trypsin inhibitor CM3: Influence of growing area and variety

Author

Prandi, Barbara, Faccini, Andrea, Tedeschi, Tullia, Galaverna, Gianni, and Sforza, Stefano

Subjects

*FOOD allergy, *PROTEOLYTIC enzymes, *LIQUID chromatography-mass spectrometry, *TRYPSIN inhibitors, *PROTEIN structure, *RESPIRATORY infections

Abstract

Abstract: Food allergy from wheat is triggered by several protein classes, such as LTPs, ω5-gliadins and α-amylase/trypsin inhibitors. The latter proteins, belonging to the prolamin superfamily, are mostly involved in baker’s asthma, a form of occupational allergy in which the sensitization occurs through the respiratory tract. α-Amylase/trypsin inhibitors were also found to be involved in wheat-related atopic dermatitis. In this work, the allergen Tri a 30 (the CM3 α-amylase/trypsin inhibitor) was quantified in durum wheat salt soluble extracts using a peptidomic approach. CM3 protein identification was confirmed by using LTQ-OrbiTrap analysis on peptides obtained from the enzymatically digested protein separated by gel electrophoresis. Then, marker peptides derived from the protein after enzymatic cleavage of the full wheat extracts were identified by LC–MS/MS. One of them was used as marker for quantitative determination on an UPLC/ESI-MS system by using its isotopically labelled analogue as internal standard, allowing to assess the protein content in the different samples. The CM3 allergenic proteins were found to greatly vary among different cultivation areas. [Copyright &y& Elsevier]

Published

2013

11. Influence of environmental and genetic factors on content of toxic and immunogenic wheat gluten peptides.

Author

Ronga, Domenico, Laviano, Luca, Catellani, Marcello, Milc, Justyna, Prandi, Barbara, Boukid, Fatma, Sforza, Stefano, Dossena, Arnaldo, Graziano, Sara, Gullì, Mariolina, Visioli, Giovanna, Marmiroli, Nelson, De Vita, Pasquale, Pecchioni, Nicola, and Francia, Enrico

Subjects

*GLUTEN, *DURUM wheat, *GLIADINS, *GLUTELINS, *WHEAT, *CELIAC disease, *PLANT selection, *GRAIN yields

Abstract

• Major effect of environment on accumulation of gliadins and CD-triggering peptides. • Genetic factor contributes to toxic peptides accumulation. • GDD and rainfall affected gliadins and peptides involved in celiac disease. • Low evapotranspiration decreases level of gliadins and peptides involved in CD. • Selection for TP, IP, α-GliA2-6, γ-Gli-5 could be uncoupled from GPC and GY. The impact of environment, genetic selection and their interactions on grain yield of durum wheat genotypes has been extensively studied; however, limited information is available for their influence on gluten quality associated with effects on the amount and composition of glutenins, gliadins and celiac disease (CD)-triggering peptides. In this study, a set of six commonly cultivated durum wheat genotypes were assessed in a multi-environment trial of eight site-year combinations in different Italian regions during two consecutive harvest years (2016 and 2017). While high-molecular-weight glutenin subunits (HMW-GS) were more stable between years, differences in total gluten proteins were mainly due to low-molecular-weight glutenin subunits (LMW-GS) and gliadins accumulation. After mass separation and quantification, two gliadin proteins – γ-Gli-5 and α-GliA2-6 (41.1 and 33.8 kDa, respectively) – were further studied together with toxic (TP) and immunogenic (IP) celiac disease-triggering peptides obtained via simulated gastrointestinal digestion. While TP accumulation was strongly influenced by the genotypes, IP showed marked variation in the different sites with significant genotype-by-year and genotype-by-site interaction. Specific agrometeorological variables (i.e. growing degree days and aridity index) in different growing phases showed a strong negative correlation with α-GliA2-6 and CD-associated peptides. Statistical analysis revealed that the level of gliadins and TP/IP peptides were uncorrelated with grain protein content and yield. The selection of plant materials with good technological properties but with a low content of CD-triggering peptides should combine with ad hoc environment (e.g. site) selection and management practices reducing crop evapotranspiration in the vegetative phase. [ABSTRACT FROM AUTHOR]

Published

2020