Interaction of (-)-epigallocatechin-3-gallate with serum albumin in the presence or absence of glucose

Li, Min

23 July 2014

No description available.

Biochemistry

Regulation of normal and malignant prostate cell biology by IGF-I: mechanisms and modulation by dietary polyphenols and energy restriction

Wang, Shihua

15 August 2003

No description available.

Health Sciences, Nutrition

IGF-I

dietary restriction

polyphenols

prostate

cancer

microarray

rats

cell signaling

ANTI-INFLAMMATORY EFFECT OF RED SEAWEED EXTRACTS

Yang, Yingying

01 September 2020

Red seaweeds are reported to represent the largest group of algae, with more species accounted for than the combination of brown and green seaweeds. Due to the high amount of polysaccharides in red seaweeds, they are mainly utilized for commercial agar and carrageenan production in industry. However, increasing studies indicate other valuable compounds such as lipids and polyphenols could be potential utilized for multiple human needs (e.g., drug development) (1, 2). With increasing studies demonstrating the potential health benefits of seaweed components, two red seaweed species commonly consumed in Asia, hong qı´ lı´n c a`i (HQL), Eucheuma sp and zhe` gu¯ ca`i (ZGC), Caloglossa leprieurii, were investigated on to determine the anti-inflammatory effects of their extractable lipophilic bioactives (ELB) and bound lipophilic bioactives (BLB) in lipopolysaccharide( LPS)-treated RAW 264.7 macrophages. The chemical composition of ELB and BLB was characterized in terms of total phenolic content (TPC), total flavonoid content (TFC), total tannin content (TTC), oxygen radical absorbance capacity (ORAC), and etc. Six phenolic compounds were identified in ZGC extracts and one was detected in HQL. All extracts inhibited the nitric oxide (NO) production in LPS-induced macrophages, which was associated with downregulation of iNOS and COX-2 protein expression and up-regulation of HQ-1 and NQO1 protein expression. Overall, our results showed that both ELB and BLB in HQL and ZGC seaweeds presented potential anti-inflammatory activities. These results warrant future investigations to determine the mode of actions of red seaweed bioactives and their efficacy in humans.

anti-inflammatory effects

red seaweed extracts

polyphenols

bioactives

Eucheuma sp.

Caloglossa leprieurii

Food Chemistry

Food Science

Nutritional Value of Spent Hibiscus Calyces and Assessment of Consumers' Knowledge and Perception of Hibiscus Products for the Promotion of their Consumption

Ndiaye, Oumoule

09 November 2021

Hibiscus calyces have anti-inflammatory effects, reduce metabolic risk factors, and act as a prebiotic in the human gut. Bioactive compounds in hibiscus include dietary fiber, polyphenols and vitamins and hibiscus calyces have a well appreciated flavor. Preparation of juice from hibiscus is done using hot or cold aqueous maceration procedures. When hibiscus beverages are made, the remaining biomass, the spent calyces, is discarded. Little information is available on the composition of the spent calyces. To determine whether the spent calyces have potential value, it is important to evaluate the composition of major bioactive elements and other potentially valuable components like aromas. The overall goal of this work was to determine if hibiscus spent calyces have components that would be of nutritional value, and to investigate consumer interest in hibiscus consumption in the U.S. The first objective was to measure the contents of sugar, fiber, anthocyanins, other phenolics, vitamin C, and organic acids (hibiscus/garcinic, citric, succinic, fumaric acid) in spent calyces. The second objective was to identify and quantify flavor compounds in the spent calyces. The third objective was to assess American consumers knowledge and perception of hibiscus products. Cold and hot aqueous extractions were carried out on whole calyces of red and white hibiscus using a calyces:water ratio of 1:15. The spent calyces were freeze-dried and analyzed for sugar, fiber, anthocyanins, total phenolics, vitamin C, organic acids and flavor compounds and compared to whole calyces. Soluble and insoluble dietary fiber were measured using sequential enzymatic digestion and gravimetric filtration according to the AOAC method. HPLC was used to determine sugars, anthocyanins and vitamin C, acids. UPLC to identify polyphenols and GCMS with SPME to identify and quantify aroma compounds. Results of the survey show that most of the American consumers who participated in this study have consumed hibiscus products before and were aware of the health attributes of hibiscus products. The most liked products were tea and juices. Main reason for hibiscus consumption was in order: taste, health, flavor, and trend. The health statement provided to the participants of the survey did not affect their willingness-to-pay (WTP) for hibiscus beverages. Spent calyces contained significant amounts of sugars, anthocyanins, total phenolic, organic acids, vitamin C, dietary fiber, and aroma compounds. More fiber was found in the spent calyces than in the raw ones; volatiles profile and phenolics profile were similar to those of the raw calyces. These important nutritional compounds make hibiscus spent calyces useful as a functional ingredient in food products or for producing nutraceutical products. Use of spent calyces will increase value of hibiscus products benefit to both consumers and industrials and help reduce economic and environmental issues related to food waste management. / Doctor of Philosophy / Hibiscus is a plant native to the tropics. Two types of hibiscus plants exist: red and white; both have been used in traditional medicine, in cooking and for making beverages. Both share the following characteristics: sour taste, pleasant natural flavor, refreshing properties, and high content of elements such as dietary fiber and antioxidants that promote health. Hibiscus calyces are reported to have potential to retard early aging, fight against inflammation, and reduce metabolic risk factors (diabetes, obesity, and high blood cholesterol). Fiber acts as prebiotic in the human gut and therefore facilitate bowl movement. Hibiscus calyces are consumed in the forms of tea, juice, smoothies, jam and marmalade and are highly appreciated by consumers. However, despite these attributes and possible uses, the whole calyces' byproducts, spent calyces, are discarded after obtaining the juice from the whole calyces. They are considered as a waste product. As hibiscus is mostly produced and mainly known in places like India and Africa, we were interested in learning about American consumers knowledge and perception of hibiscus products. The purpose of this work was to evaluate the spent calyces' major components and investigate American consumers' knowledge of hibiscus. Red and white hibiscus were obtained from Senegal. Nutrients in spent calyces obtained from cold or hot aqueous extraction of each type of hibiscus was determined. The waste calyces obtained from both hibiscus types contain significant amounts of fiber, sugars, acids, anthocyanin pigments and other phenolic compounds. Phenolic compounds were idenuutified and many are known to have positive effects on health. Many aroma compounds were present in the waste product as well. The results revealed that most American consumers were familiar with and had consumed hibiscus products before. They were most interested in teas followed by juice. Taste was the prime reason why they consume hibiscus products then health properties. participants` willing to pay (WTP) did not increase after they were provided with information on hibiscus health benefits. Hibiscus spent calyces could be used for new food products manufacturing as they can add value to our diet and help consumers stay healthy. The findings can help in the promotion of hibiscus products consumption and commercialization and in reducing food waste.

Hibiscus

Bissap

calyces

byproduct

spent calyces

polyphenols

anthocyanins

dietary fiber

consumer knowledge

Determination of Extractables from Cranberry Seeds Using Supercritical CO₂

Bhagdeo, Mansi Pravin

12 July 2004

An alternative method for extraction of therapeutically beneficial compounds such as sterols, fatty acids, and tocopherols from cranberry seeds with pure SF CO2 has been provided. The supercritical fluid extraction (SFE) operating conditions such as extraction temperature, pressure of CO2, extraction time, and CO2 flow rate were optimized to maximize the extraction yield. The amount and type of SF extractables (pure CO₂) have been compared with Soxhlet extractables (hexane) to evaluate the feasibility of SFE as an alternative extraction method. The extractables obtained via hexane and SF CO₂, which were derivatized and identified by gas chromatography mass spectrometry (GC-MS), contained mostly methylated fatty acids. / Master of Science

HPLC

polyphenols

GC-MS

fatty acids

nutraceuticals

supercritical fluids

cranberry seeds

The Impact Of High-Anthocyanin Berry Supplementation On Cardiometabolic Markers In Humans: A Systematic Review Meta-Analysis Of Randomized Control Trials

Abram, Mia M

01 June 2022

Relevance: Heart disease is the leading cause of death worldwide. Observational and experimental evidence has shown that fruits high in polyphenols can reduce morbidity and mortality of heart disease. Introduction: This systematic review meta-analysis was conducted to evaluate the current evidence for anthocyanin-rich fruit supplementation amelioration of hypertension. Methods: Articles were identified, collected, screened, then data were analyzed via CMAv.2 for overall effect on blood pressure, nitric oxide, flow mediated dilation and pulse wave velocity. Results: The analysis showed a small, significant effect on diastolic blood pressure. No moderator groups had significant effects, though some individual subcategories showed significant effects. Conclusion: Diastolic blood pressure in humans can be beneficially influenced by consumption of anthocyanin-rich fruit.

Cardiometabolic

Heart Disease

Blood Pressure

Hypertension

Berries

Polyphenols

Anthocyanin

Dietetics and Clinical Nutrition

Investigation of the nutraceutical potential of monofloral Indian mustard bee pollen

Ketkar, S.S., Rathore, A.S., Lohidasan, S., Rao, L., Paradkar, Anant R, Mahadik, K.R.

January 2014

No / This study was designed to investigate the nutraceutical potential of monofloral Indian mustard bee pollen (MIMBP). MThe nutritional value of MIMBP was examined in terms of proteins, fats, carbohydrates, and energy value. Its chemical composition in terms of total polyphenol and flavonoid content was determined. MIMBP was screened for free flavonoid aglycones by developing and validating a high-performance liquid chromatography-photo diode array (HPLC-PDA) method. MIMBP was analyzed for in vitro antioxidant effect in terms of 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical-scavenging activity. MIMBP was found to be comprised of proteins ((182.2+/-5.9) g/kg), fats ((137.7+/-6.8) g/kg) and carbohydrates ((560.6+/-17.4) g/kg), which result in its high energy value ((17 616.7+/-78.6) kJ/kg). MIMBP was found to contain polyphenols ((18 286.1+/-374.0) mg gallic acid equivalent/kg) and flavonoids ((1 223.5+/-53.1) mg quercetin equivalent/kg). The HPLC-PDA analysis revealed the presence of kaempferol ((65.4+/-0.5) mg/kg) and quercetin ((51.4+/-0.4) mg/kg) in MIMBP, which can be used as markers for determining the quality of bee pollen. The MIMBP extract showed DPPH free radical-scavenging activity with a half maximal inhibitory concentration of 54.79 mug/mL. The MIMBP was found to be a rich source of nutrients providing high caloric value, which makes it a candidate for a potential nutraceutical agent. The study also illustrated the high antioxidant content of MIMBP, especially in the principle polyphenols and flavonoids, which suggests its potential role in the prevention of free radical-implicated diseases. The DPPH-scavenging effect of MIMBP further confirmed its antioxidant potential. Additionally, we developed a simple, specific and accurate HPLC-PDA method for the identification and quantification of free flavonoid aglycones. This can be applied in future screenings of the quality of pollen collected by honeybees.

Animals

Bees

Dietary supplements

Free radical scavengers

Mustard plant

Plant extracts

Pollen

Polyphenols

La Maladie d'Alzheimer et la place des polyphénols au sein des nouvelles stratégies thérapeutiques : analyse multi-techniques des interactions "polyphénols-peptides Tau" / Alzheimer's disease and the role of polyphenols in new therapeutic strategies : multi-technical analysis of "polyphenols-peptides Tau" interactions

Guéroux, Marie

05 November 2013

La Maladie d’Alzheimer est caractérisée par la formation de dégénérescences neurofibrillaires, constituées de protéine Tau anormalement hyperphosphorylée et agrégée. De nombreuses études traitent de possibles stratégies thérapeutiques basées sur l’inhibition de cette polymérisation, et présentent les effets bénéfiques de certaines molécules dont les polyphénols, mais les résultats obtenus jusque là, manquent de données au niveau moléculaire. Ainsi, après avoir synthétisé, une banque de polyphénols de structures différentes, et 3 peptides représentatifs de la région P de phosphorylation de Tau, c’est en suivant une stratégie combinant la RMN et la modélisation moléculaire, que nous avons évalué les paramètres dynamiques du complexe formé. Ce projet nous a apporté des informations en termes d’affinité, et de relations structure/activité et ainsi, de mieux appréhender les mécanismes d’interactions intervenant dans l’agrégation de Tau par les polyphénols. / Alzheimer's disease is characterized by the formation of neurofibrillary tangles constituted by abnormally hyperphosphorylated and aggregated Tau protein. Many studies deal with potential therapeutic strategies based on the inhibition of this polymerization, and show the beneficial effects of some molecules like polyphenols, but the obtained so far results show a lack of data at the molecular level. Thus, after the synthesis of, a library of polyphenols with different structures, and 3 representative peptides of the P2 phosphorylation Tau region, by following a strategy combining NMR and molecular modeling, we have evaluated dynamic parameters of the formed complex. This project has provided us informations in terms of affinity, and structure / activity relationships, and leading us to a better understanding of the mechanisms led to better understand the mechanisms involved in the aggregation Tau inhibition phenomena by polyphenols.

Maladie d'Alzheimer

Synthèse de polyphénols

Synthèse de peptides Tau

Caractérisation RMN

Modélisation moléculaire

Interactions polyphénols-peptides Tau

Échelle d'affinité

Alzheimer disease

Polyphenols synthesis

Tau peptides synthesis

NMR characterisation

Molecular modeling

Polyphenols-Tau peptides interactions

Affinity scale

Characterization and selection of globe artichoke and cardoon germplasm for biomass, food and biocompound production / Caractérisation et sélection de germoplasmes d'artichaut et de cardon pour l'alimentation et la production de biomasse et de biocomposés

Ciancolini, Anna

06 July 2012

L'artichaut et le cardon, appartenant à la famille des Asteraceae (Compositae), sont des plantes pérennes herbacées natives du bassin méditerranéen, et qui sont traditionnellement cultivées comme plantes maraîchères, respectivement pour leurs têtes et leurs cardes. L'Italie est le pays possédant la plus importante collection de germoplasmes autochtones d'artichaut. Dans le centre de l'Italie, le type Romanesco est étendu. Ces dernières années, le développement des techniques in vitro a permis la multiplication de l'artichaut Romanesco et sa rapide expansion. Le clone Romanesco C3 a ainsi remplacé de nombreuses races locales de Romanesco, contribuant de la sorte à une érosion significative des ressources génétiques locales. Concernant le germoplasme de cardon cultivé, seules quelques études sont disponibles sur son identification et sa caractérisation génétique. Le cardon sauvage, n'est pas du tout cultivé; il est davantage considéré comme une adventice dans le paysage italien. La grande variabilité existant entre les espèces de Cynara n'est pas correctement décrite et il existe plusieurs cas d'homonymes. Le secteur de l'artichaut italien a du faire face ces dernières années à une crise causée principalement par l'apparition sur le marché de produits étrangers et par les coûts élevés de mise en culture et de récolte. Afin de surmonter cette crise, de nombreuses valorisations du Cynara ont été envisagées. Ces potentielles applications pour la culture ont pu voir le jour grâce au support de l'Union européenne pour la recherche sur les co-poduits issus de l'agriculture, et ont mené à un intérêt croissant pour la biomasse entière d'artichaut. Considérant ces remarques préliminaires, une stratégie, qui permettrait de valoriser le germoplasme italien par la production concomitante de biomasse et de biocomposés, a été mise en place durant ces trois ans de doctorat. Le premier objectif de ce travail de doctorat consistait en i) la caractérisation agro-morphologique du germoplasme italien par le biais de descripteurs UPOV, ii) l'évaluation de la variabilité génétique à l'intérieur et entre les races/clones et iii) l'identification et la préservation des ressources génétiques pour le développement de futurs programmes d'amélioration des plantes. Suite à cette caractérisation, trois génotypes ont été sélectionnés et enregistrés sous les noms de Michelangelo, Donatello and Raffaello. Afin d'analyser le germoplasme italien de Cynara d'un point de vue de la biomasse, différents traits expliquant la vigueur de la plante et la production de matière sèche ont été considérés. Le rendement en biomasse aérienne s'est révélé très élevé, soulignant la possibilité d'utiliser cette culture comme matière première industrielle. Un point particulier du programme de thèse était de mettre au point les méthodes d'extraction de biocomposés et les techniques d'analyse afin d'optimiser le rendement en polyphénols à partir de la biomasse de Cynara à l'échelle laboratoire. L'ASE a été reconnue comme étant la meilleure technique. De plus, les cinétiques de production de biomasse et de biocomposés ont été évaluées et le stade physiologique optimal pour collecter le matériel végétal en champ a été identifié. La caractérisation biochimique a été réalisée grâce aux méthodes mises au point et en collectant le matériel végétal au stade physiologique optimal identifié afin de distinguer les génotypes les plus appropriés pour la production de biocomposés. Le dernier point du programme de thèse était centré sur le développement d'une technique alternative de production de biomasse et de biocomposés en conditions de croissance sous serre. Les résultats obtenus mettent en exergue la possibilité d'utiliser avec succès certains génotypes de Cynara pour la production de biomasse et de biocomposés. La perspective réelle d'utiliser certains génotypes d'artichaut pour une double valorisation alimentaire et non-alimentaire a ainsi été soulignée. / Globe artichoke and cardoon, belonging to the Asteraceae (Compositae) family, are herbaceous perennial plants native to the Mediterranean area, which are traditionally grown as vegetables for the heads and the fleshy petiole leaves, respectively. Italy is the richest reserve of globe artichoke autochthonous germplasm, which is vegetatively propagated and well adapted to the different pedoclimatic conditions of the Country. In Central Italian environments, the Romanesco type is widespread. In the last years, the development of in vitro technologies allowed the propagation of Romanesco globe artichoke type and its rapid expansion. As a result, the micropropagated Romanesco clone C3 has replaced many landraces traditionally grown in the Latium Region and has led either to a significant erosion of local genetic resources. As regards Italian cultivated cardoon germplasm, there are few studies on its genetic characterization and identification and there is a lack of information about the genetic variability existing within and among accessions. For the wild cardoon, no specialized crop is present and it represents mainly a weed in Italian environments. The great variability existing in Cynara spp. has not been described, the nomenclature of Italian germplasm is not always very clear since there are many cases of homonyms. In addition, Italian globe artichoke sector is facing a crisis due principally to the appearance on the market of foreign products and to the high labor cost required for crop cultivation and harvesting. In order to overcome this crisis several possible industrial uses were considered for the species. Considering these preliminary remarks, a strategy for valorizing Italian germplasm using biomass and biocompound production has been carried out during the three years of PhD program. The first objective of PhD work consisted in (i) characterizing agro-morphologically Italian germplasm using UPOV descriptors, (ii) assessing the genetic variability existing within and among landraces/clones and (iii) identifying and preserving genetic resources for the development of future plant breeding programs. As a result of this characterization, three genotypes have been selected and registered under the names of Michelangelo, Donatello and Raffaello. In order to analyze Italian Cynara spp. germplasm also from a biomass point of view, different traits explaining plant vigor and dry matter production have been considered. The aerial biomass yield resulted very high underlining the possibility of using this crop as raw industrial material. A focal point of PhD program was to set up biocompound extraction methods and analysis techniques to optimize polyphenol recovery from biomass of Cynara spp at a laboratory scale. In particular, ASE was found as the best extraction technique which allows to reduce extraction time and solvent consumption, increase nutraceutical yield and improvement of extract quality. Moreover, the kinetics of biomass and bio-compound production has been evaluated and the optimal physiological stage to collect plant material grown in open field has been identified. Biochemical characterization has been performed using the methods set up and collecting plant material in the optimal physiological stage identified in order to distinguish which genotypes were more suitable for bio-compound production purpose. The last focal point of PhD program was the development of an alternative technique for biomass and biocompound production in greenhouse grown conditions. Results obtained in the three PhD years, highlighted the possibility of using successfully some Cynara spp. genotypes for biomass and bio-compound production, in particular in open field condition. Also the real prospect of using some globe artichoke genotypes for food and non-food dual-production (biomass for biocompound extraction and heads for human food) has been underlined.

Inulin Artichaut

Cardon

Biomasse

Polyphénols

Variabilité génétique

Hydroponie

Inuline

Globe artichoke

Cardoon

Biomass

Polyphenols

Genetic variability

Floating system

Les composés phénoliques des raisins : étude du potentiel qualitatif et des procédés émergeants d'extraction / The phenolic compounds of grapes : study of qualitative potential and emerging processes of extraction

El Darra, Nada

21 January 2013

Ce travail porte sur l’amélioration de l’extraction des composés phénoliques à partir des raisins tout au long de la chaîne de la vinification en rouge. La qualité des vins rouges est en grande partie déterminée par les composés phénoliques. Parmi les composés phénoliques, les anthocyanes, qui sont responsables de la couleur, et les tanins, à l’origine de la sensation d’astringence. Pour augmenter la quantité des composés phénoliques présents dans le vin, un développement des procédés permettant d’améliorer la diffusion des composés phénoliques durant la vinification en rouge doit être mis en jeu. Nous avons entamé notre étude par un suivi de la maturité phénolique des raisins rouges appartenant à différentes parcelles de la société château KSARA localisées dans la vallée de la Békaa tout en se servant des méthodes Glories (1&2) et ITV. Quant à l’amélioration de l’extractibilité des composés phénoliques durant la vinification en rouge, différents prétraitements ont été appliqués dans le but d’améliorer la diffusion de ces composés. Parmi ces procédés, les technologies suivantes ont été abordées dans notre étude: les électrotechnologies (CEP), les ultrasons, le chauffage modéré, le traitement enzymatique, la macération préfermentaire à froid et la thermovinification. Ces techniques permettent d’endommager ou de fragiliser les membranes et/ou parois cellulaires facilitant ainsi la libération du contenu cellulaire vers le milieu extérieur. Les cinétiques d’extraction des composés phénoliques ont pu être modélisées par le modèle empirique de Peleg et le modèle cinétique simplifié afin d’estimer les rendements d’extraction. De plus, dans ce travail, l’accent a été mis sur les propriétés antiradicalaires et antimicrobiennes des composés phénoliques extraits de différentes variétés de raisins fournis par la société Château KSARA. Pour valoriser les co-produits de la vinification, le chauffage ohmique pulsé (COP) a été appliqué sur le marc du raisin dans le but d’améliorer l’extraction de ses composés phénoliques. L'optimisation du choix de la date des vendanges et l'amélioration des procédés d’extractions des composés phénoliques durant la vinification en rouge, pourraient nous conduire à élaborer un vin d'une meilleure qualité. Ce travail étant effectué, il sera intéressant comme projet à venir de valider ces différents pré-traitements à grande échelle pour une perspective d’application industrielle. / This study focuses on improving the extraction of phenolic compounds from grapes throughout the chain of red winemaking. The quality of wine is mainly determined by the phenolic compounds. From these phenolic compounds, the anthocyanins, which are responsible of the color and tannins, the responsible of the astringency. In order to increase the amount of phenolic compounds present in wine, a development of methods used to improve the extraction of phenolic compounds during the red vinification should be discussed. We began our study by using two methods Glories (1&2) and ITV to monitor the phenolic maturity of red grapes grown in the vineyards in the province of Bekaa-Château KSARA S.A.L. Whereas for the improvement of the extractibility of phenolic compounds during the vinification, different pre-treatments were applied in order to ameliorate the diffusion of these compounds. Among these process, the following technologies were discussed in our study: the electrotechnologies (PEF), the ultrasound, the moderate heat treatment, the enzymatic treatment, the cold maceration and the thermovinification. These techniques are able to weaken the cell walls and facilitate the diffusion of grape’s phenolic compounds during vinification. Peleg’s equation and the simplified kinetic model were shown to be suitable for describing the extraction kinetics for phenolic compounds and for the estimation of the extraction yield of polyphenols. Furthermore, in this study, the antiradical and antimicrobial activities of phenolic compounds extracted from grapevine varieties of Château KSARA-Bekaa-Lebanon were analyzed. To valorize the by-products of the vinification, the pulsed ohmic heating (POH) was applied on the grape pomace in order to ameliorate the extraction of the phenolic compounds. The optimization of the choice of the harvesting date and the amelioration of the extraction of phenolic compounds during the red vinification, will conduce to elaborate a high quality of wine. After this study, it will be interesting to validate the different pre-treatments at large scale for a perspective of an industrial application.

Maturité

Composés phénoliques

Champs électriques pulsés

Marc de raisin

Macération préfermentaire

CEP

COP

Maturity

Pulsed electric field

Grape pomace

Polyphenols