Corrado Rizzi

Aroma compounds of an Italian wine (Ruché) by HS–SPME analysis coupled with GC–ITMS

Abstract Headspace solid phase micro extraction (HS–SPME) was used for extraction of aroma compounds characterizing a Piedmont wine ( Ruche ) derived from a non aromatic vine. Extracted compounds were identified by ion trap mass spectrometry (ITMS) after gas-chromatographic analysis. In this way a selection of 59 identified primary aromatic compounds, related to the typical flavour of Ruche was made possible. The SPME technique showed peculiar behaviour in that 23 of the 59 compounds identified were not detected by liquid-liquid solvent extraction of the same samples. Subsequent comparison with the aromatic profiles of different wine samples obtained by microvinification from different grape varieties showed similarities between Ruche and the wines, Brachetto and Malvasia , originating from aromatic vines. SPME analysis proved to be useful in understanding aroma compositions of all samples examined, establishing bases for further investigations on the chemical and biochemical mechanisms underlying wine aroma development.

Effects of wheat germ agglutinin on human gastrointestinal epithelium: Insights from an experimental model of immune/epithelial cell interaction

Wheat germ agglutinin (WGA) is a plant protein that binds specifically to sugars expressed, among many others, by human gastrointestinal epithelial and immune cells. WGA is a toxic compound and an anti-nutritional factor, but recent works have shown that it may have potential as an anti-tumor drug and as a carrier for oral drugs. To quantitate the toxicity threshold for WGA on normal epithelial cells we previously investigated the effects of the lectin on differentiated Caco2 cells, and showed that in the micromolar range of concentrations WGA could alter the integrity of the epithelium layer and increase its permeability to both mannitol and dextran. WGA was shown to be uptaken by Caco2 cells and only approximately 0.1% molecules were observed to cross the epithelium layer by transcytosis. Here we show that at nanomolar concentrations WGA is unexpectedly bioactive on immune cells. The supernatants of WGA-stimulated peripheral blood mononuclear cells (PBMC) can alter the integrity of the epithelium layer when administered to the basolateral side of differentiated Caco2 cells and the effects can be partially inhibited by monoclonal antibodies against IL1, IL6 and IL8. At nanomolar concentrations WGA stimulates the synthesis of pro-inflammatory cytokines and thus the biological activity of WGA should be reconsidered by taking into account the effects of WGA on the immune system at the gastrointestinal interface. These results shed new light onto the molecular mechanisms underlying the onset of gastrointestinal disorders observed in vivo upon dietary intake of wheat-based foods.

How much does transgenesis affect wheat allergenicity?: Assessment in two GM lines over-expressing endogenous genes.

UNLABELLED Wheat kernel albumins/globulins (A/G) and gluten proteins are responsible for bakers asthma and food allergy in atopic subjects. Although no commercial genetically modified wheats are currently being grown, they are under study and the allergenicity of GM products is a major concern. In order to establish the expected and unexpected effects of genetic transformation on allergenicity and also to carry out a safety assessment of genetic transformation, two GM wheat lines (bread and pasta wheat) transformed with endogenous genes were compared to their untransformed counterparts (wt), first by an allergenomic approach, and second, using ELISA with sera from patients suffering from food allergy to wheat and bakers asthma. The 2D immunoblots performed on sera from patients suffering from food allergy and bakers asthma on the A/G fraction of the four lines (two GM and two wt) revealed comparable IgE-binding profiles. A total of 109 IgE-binding spots were analyzed by mass spectrometry, and most of the proteins identified had already been described as allergens or potential allergens. Only two IgE-binding proteins were specific to one GM line. The concentration of specific IgE against the A/G fractions of GM wheat lines and their wt genotypes differed for some sera. BIOLOGICAL SIGNIFICANCE The originality of our paper is to relate the transformation of wheat lines with their potential allergenicity using patient sera, such focus has never been done before in wheat and should be of interest to the researches working in this field. Another interesting point of this paper is the study of two types of allergies (respiratory and food) on two wheat genotypes and their GM which reveals that some allergens already known in respiratory allergy could be involved in children suffering from wheat food allergy. In this paper we used a classical 2D proteomic analysis and the protein identifications were performed by mass spectrometry after spot picking and in gel trypsin hydrolysis. Concerning the LC-MS/MS analyses classical software and parameters were used as described in Material and methods. We worked on wheat which is actually not fully sequenced that was a difficulty; we therefore searched against two databanks (proteins and ESTs) in order to compare the results. Moreover all proteins reported in our paper were identified with at least three unique peptides. The identified proteins were checked for their potential allergenicity. In order to have a best interpretation of protein identified in terms of potential allergens, BLAST alignments were performed by using an allergen databank (SDAP). This allows the determination of the cross-reactivity of these identified proteins with known allergens of other species and also the prediction of a potential allergenicity.

Temperature-dependent decay of wheat germ agglutinin activity and its implications for food processing and analysis

Abstract A recently-described immunoenzymatic (ELISA) method for the quantitative determination of biologically-active wheat germ agglutinin (WGA) in unknown samples has been applied to measure the concentration of active WGA in raw and cooked wheat-derived foodstuffs. The method exploits the binding specificity of WGA to ovalbumin as a first step followed by identification of bound lectin with polyclonal antibodies. Purified WGA was used to obtain calibration curves. Detectable amounts of WGA were found in raw foodstuffs and wheat flours, whilst variable amounts of agglutinin were found in wholemeal pasta probably as a consequence of thermal inactivation during food processing. The thermal gradient gel electrophoresis (TGGE) technique was therefore applied to analyse the thermal stability of WGA. The biological activity of WGA decreased as a function of heating temperatures and time of exposure to thermal treatment in an S-shaped fashion with an inflection point around 65 °C. As a consequence, WGA might represent a biochemical “indicator” allowing one to determine the thermal treatment undergone by wheat-derived foods during processing.

Active soybean lectin in foods: quantitative determination by ELISA using immobilised asialofetuin

A recently described immunoenzymatic method for the quantitative determination of biologically active lectins in unknown samples has been adapted to measure the concentration of active soybean lectin (SBA) in foodstuffs. The method was developed by using purified SBA to build up reference standard curves and to determine the specificity and the sensitivity of the assay. Detectable amounts of soybean lectin were found in soy-based edible products such as hamburger, milk and sprouts and they have been compared to those determined in standard hemagglutination tests. Particular attention has been given to SBA quantitation in soy sprouts as a function of germination time. SBA was not degraded during germination although the hamagglutination activity of sprout extracts rapidly decreased. SBA expression was modulated during the first 10 days of germination, a time period spanning that used to produce soy-sprouts for alimentary purposes.

Egg-matrix for large-scale single-step affinity purification of plant lectins with different carbohydrate specificities.

Hen eggs represent an easily available and inexpensive source of glycoproteins expressing a variety of sugars. Egg glycoproteins might therefore be exploited to purify by affinity chromatography carbohydrate-binding proteins (lectins) with different specificities. A method to generate an affinity matrix from hen eggs is described. The matrix was assayed for its ability to purify in a single step biologically active phytohemagglutinin, wheat germ agglutinin, lentil lectin, and peanut agglutinin. Milligrams of purified lectins per gram of matrix was obtained, with the only exception of peanut agglutinin that was not efficiently retained into the affinity column. Hen egg chromatography is a relatively simple, fast, and reproducible method to purify high amount of plant lectins.

Expression of α-amylase inhibitors in diploid Triticum species

The aim of the work was to characterize the expression of various α-amylase inhibitors (αAIs), well known anti-nutritional compounds, for the development of healthier diploid wheat-based functional foods. The salt-soluble protein fractions from the seeds of 53 accessions among Triticum monococcum subsp. monococcum (T.m.), T. monococcum subsp. boeoticum (T.b.) and Triticum urartu (T.u.) were analyzed by immunoblotting after SDS-PAGE and Urea-PAGE using polyclonal antibodies (PABs) raised against 0.19 and 0.28 αAIs expressed in bread-wheat. Reverse zymography with human saliva and Tenebrio molitor α-amylases was used to assay inhibition activity. A great variability of the expression of αAI-related proteins was observed among T.b. and T.u. PABs, and reverse zymography revealed different bands, often not correlating with those present in bread-wheat. Two-dimensional electrophoresis followed by immunoblotting and mass spectrometric analysis identified these proteins as αAIs. Interestingly, no signal was observed within T.m. accessions. This makes T.m. an important candidate for the production of novel functional foods.

Effects of dietary wheat germ deprivation on the immune system in Wistar rats: a pilot study

Bioactive molecules that can gain access to body tissues through the gastrointestinal tract may interact with immune regulatory circuits and effector functions. Among these are plant lectins, such as wheat germ (WG) agglutinin, which constitute common components of the human diet and target the immune system on a daily basis. Dietary bioactive molecules might be considered as immunomodulatory signals. To investigate the possible effects on the immune system of the long-term absence of such signals, two groups of rats were fed on a diet containing or deprived of WG. The WG-deprived diet induced a state of functional unresponsiveness in lymphocytes from primary and secondary lymphoid organs, as evaluated by in vitro stimulation with T cell mitogen phytohemoagglutinin (PHA) and B cell mitogen lypopolysaccarides (LPS). The unresponsive state of the immune cells could be reversed by injection of antigen emulsified in oil with inactivated mycobacteria (complete Freunds adjuvant, CFA) Dietary signals can thus interact with the immune system possibly influencing its shaping during ontogenesis.

Production of stable food-grade microencapsulated astaxanthin by vibrating nozzle technology

Astaxanthin is a carotenoid known for its strong antioxidant and health-promoting characteristics, but it is also highly degradable and thus unsuited for several applications. We developed a sustainable method for the extraction and the production of stable astaxanthin microencapsulates. Nearly 2% astaxanthin was extracted by high-pressure homogenization of dried Haematococcus pluvialis cells in soybean oil. Astaxanthin-enriched oil was encapsulated in alginate and low-methoxyl pectin by Ca2+-mediated vibrating-nozzle extrusion technology. The 3% pectin microbeads resulted the best compromise between sphericity and oil retention upon drying. We monitored the stability of these astaxanthin beads under four different conditions of light, temperature and oxygen exposition. After 52weeks, the microbeads showed a total-astaxanthin retention of 94.1±4.1% (+4°C/-light/+O2), 83.1±3.2% (RT/-light/-O2), 38.3±2.2% (RT/-light/+O2), and 57.0±0.4% (RT/+light/+O2), with different degradation kinetics. Refrigeration, therefore, resulted the optimal storage condition to preserve astaxanthin stability.

Hidden Exogenous Proteins in Wine: Problems, Methods of Detection and Related Legislation - a Review

Rizzi C., Mainente F., Pasini G., Simonato B. (2016): Hidden exogenous proteins in wine: problems, methods of detection and related legislation – a review. Czech J. Food Sci., 34: 93–104. Fining agents are commonly used in the winemaking process to clarify and stabilise wines. They have different origins (animal, vegetal or mineral) and are added to wines in order to remove specifically undesirable compounds that are discarded. Fining agents should not be present in the final product but their possible persistence, as well as other exogenous residual proteins such as the enzymes utilised in winemaking, cannot be excluded for sure. The principal concern about the presence of exogenous residual proteins is the health of allergic subjects. Nevertheless, the respect of religious creed or other practice of living of the consumer must be considered as well. In the present review we itemise the proteins used in winemaking and possible drawbacks of their permanence in the final products and the related risks, depict the status of the art of the studies performed about the detection of exogenous proteins, and describe the wine labelling laws adopted in different countries to avoid the drawbacks associated with these hidden substances.