Global ETD Search

71	Effect of heat denaturation of bovine milk beta-lactoglobulin on its epithelial transport and allergenicity Rytkönen, J. (Jani) 06 June 2006 (has links) Abstract Beta-lactoglobulin (β-lg) is the main whey protein in bovine milk. It belongs to the lipocalin protein family, and it is one of the main milk allergens. Resistance to hydrolysis is a particular feature of β-lg making it possible that β-lg reaches the small intestine in its native form. Heat treatments during milk processing may change the native structure of bovine β-lg and change its intestinal transport properties. Heat induced conformational alterations may also expose new antigenic sites. However, there have been no previous studies on the effects of heat treatment on the transport of β-lg or on its sensitizing properties. Cow's milk allergy is one of the most important food allergies affecting about 2.4% of infants. Milk proteins, including β-lg, in breast milk substitute formulas are often the earliest foreign antigens in the diet of newborns. According to the hygiene hypothesis, natural infections and vaccinations may modify the immunological balance and decrease the risk of allergy. Isoelectric precipitations followed by anion exchange and gel filtration were used to purify bovine milk β-lg in its native form. Transport of native and heat-denatured β-lg was compared in two in vitro cell models, Caco-2 and M-cells. Sensitization properties of native and heat-denatured β-lg were studied with an animal model using Hooded-Lister rats. Effects of BCG vaccination in combination with the native β-lg were also studied. Effects of different sensitizations were assessed by antibody levels in serum and inflammation locally in the gastrointestinal tract. Heat denaturation of β-lg made its transport slower in both enterocytes and M-cells. M-cells were more effective transporters of both native and heat-denatured β-lg than caco-2 cells. Animals generated higher levels of IgE when sensitized with native β-lg, but heat-denatured β-lg induced a more intense inflammatory cell reaction in the gastrointestinal tract. Vaccination with BCG decreased serum IgE concentration and modified the predominant site of the inflammatory cell response in intestine. The results indicate that, heat denaturation of β-lg and BCG vaccination, change both the systemic and the mucosal response to bovine milk β-lg. The reasons for this remain speculative. The effect of BCG vaccination is consistent with the hygiene hypothesis. The observed alteration of transport properties could be one mechanism by which heat denaturation modifies the allergenic properties of this protein, but additional studies are necessary to assess whether other mechanisms, such as exposure of new antigenic determinants are also relevant. Caco-2 cells M-cells beta-lactoglobulin biological transport milk hypersensitivity protein denaturation
72	The gastrointestinal uptake of titanium dioxide nanoparticles : studies on Caco-2 cells, perfused intestine and in vivo dietary intake in the rat (Rattus norvegicus) Gitrowski, Constantinos January 2015 (has links) The use of nanomaterials (NMs) in orally ingestible products raises concerns about potential hazards. Titanium dioxide (TiO2) particles (of which some are incidentally produced at the nanoscale) are used in cosmetics, biological remediation (photo-catalysis), toothpastes, ingestible pharmaceuticals and food products. The increased surface area to mass ratio of nanoparticles (NPs) potentially makes them more biologically reactive than their coarser (bulk) material counterparts. There is limited data available on the uptake kinetics across the mammalian gastrointestinal tract, and the potential hazard posed to humans. In this study, the uptake and accumulation of TiO2 (nano and bulk) into and across the human intestinal cell line, the isolated perfused rat jejunum and the whole rat were evaluated. Caco-2 monolayers exhibited time-dependent, accumulation, uptake and transport of Ti/TiO2 from TiO2 exposures of 1 mg L-1 over 24 h, which was influenced by the crystal type, irrespective of cell maturity and growth substrate (Chapters 2-3). Electron micrographs of the Caco-2 monolayer showed the presence of particles inside the cells within vesicles and energy dispersive spectroscopy (EDS) confirmed the composition as TiO2. Addition of pharmacological inhibitors altered the Ti concentration in the cells suggesting diffusion is not the primary mechanism of uptake, rather, an active process is responsible (Chapter 2). Whole gut sacs exposures of 1 mg L-1 bulk or nano TiO2 demonstrated the primary regions of the gut associated with accumulation are the small and large intestine, with 70 % or more of the TiO2 accumulating in the mucosa rather than the underlying muscularis. Perfused intestines exposed to 1 mg L-1 bulk or nano TiO2 for 4 h showed a time-dependent accumulation of Ti in the serosal perfusate with the initial rates of Ti flux from the nano exposures being 5 fold higher than the bulk form. Addition of pharmacological inhibitors caused increases in tissue Ti concentration and significantly reduced Ti serosal flux rates for NP exposures. Overall, the data suggests an active absorption mechanism is responsible for Ti uptake from both bulk and nano TiO2 exposures across the perfused rat intestine that is drug sensitive (Chapter 4). In vivo work demonstrated feed status and rat age effected Ti tissue concentrations. Critically, Ti tissue concentrations reduced with increasing age and removal of Ti containing feed caused transient decreases in Ti tissue concentrations in 23 day old rats. Transient decreases in Ti tissue concentration following feed removal were not observed in older rats suggesting young rats may be more sensitive to the uptake hazards presented by titanium (Chapter 5). Overall, the findings presented in this thesis demonstrate Ti/TiO2 from both bulk and nano TiO2 exposures are accumulated and transported across intestinal epithelium and these processes are drug sensitive and affected by crystal structure and particle size. The results in this thesis have contributed to a better understanding of the uptake kinetics and sub-lethal hazards presented by bulk and nano forms of TiO2 exposed to intestinal epithelium which could be used to partially inform policy makers on human dietary risk assessments. 615.1
73	Quantification of cell penetrating peptide uptake by fluorescent techniques Staley, Ben Paul January 2012 (has links) Cell penetrating peptides have been the focus of drug delivery research for 15 years due to their apparent ability to deliver cargoes inside cells more readily than many other carriers. Using two of the most commonly studied peptides (tat47-57 and R9), the present study differs from previous work by deliberately choosing to observe uptake with lower peptide concentrations closer to potential therapeutic doses, and by implementing raster image correlation spectroscopy (RICS) on a commercial microscope to quantify uptake in parallel to other techniques such as fluorescence correlation spectroscopy (FCS), confocal microscopy, and mass spectroscopy.An initial study using mass spectrometry and ExPASy (Expert Protein Analysis System) revealed that the peptides are stable for at least one hour in PBS. Based on this initial information and other experimental conditions, the study took two main directions with regards to the peptide: the membrane interaction and accumulation in the cell.The peptides interaction with the cell membrane revealed that neither tat-TAMRA nor R9-TAMRA disrupts the membrane of cells: incorporation of FM2-10 in the membrane was not modified in K562 cells whilst it was in presence of the control lytic peptides GALA and mellitin. Based on this information confocal microscopy was utilised to assess the localisation on the cell membrane. Peptide binding to the membrane appeared to be heterogeneous in distribution at 1µM bulk concentration.Accumulation in cells of the peptides was observed incubated at 37°C, confocal microscopy showed punctuated distribution with intracellular aggregations of fluorescence measuring between 2.5-3.5µm in diameter. Co-staining with a nuclear dye revealed these aggregations to be focused around the nucleus of the cell. Initial FCS experiments indicated a concentration dependent accumulation of the peptide in the cells and a decrease of the intracellular diffusion coefficients at high concentration possibly corresponding with molecular crowding. Interestingly the anomalous diffusion model did not statistically improve the results.RICS was implemented to study the kinetics of entry of TAMRA labelled cell penetrating peptides in both Caco-2 and HeLa cells lines at concentrations between 500nM and 2µM. Concentrations above 1µM exhibited higher final intracellular concentrations, yet the measured diffusion coefficients were similarly independent of extracellular concentration. Both peptides appeared to enter the cell quickly with a fast initial uptake over the first 10 minutes, reaching a concentration maxima after 30 minutes.Overall, the study reveals that many published studies may be incorrect as they may only be reporting the presence of a fluorescent dye inside the cell not the peptide. The fast binding of the peptide to the membrane is likely to cause false positive results when traditionally studying internalisation kinetics such as using flow cytometry and confocal microscopy. Correlation spectroscopy techniques such as FCS, provide useful information on internalisation of the peptides, but the single spot measurement is limited when providing information on the entire cell. RICS is a progression of correlation spectroscopy and provides a more representative picture of the cell. 615.1
74	Estrategias para mitigar la toxicidad asociada a la exposición crónica al mercurio a través de la dieta Rodríguez Viso, Pilar 20 April 2023 (has links) [ES] La dieta es la principal vía de exposición a mercurio (Hg) para la mayoría de la población. Las principales formas de Hg en los alimentos son el metilmercurio (MeHg) y el Hg inorgánico divalente [Hg(II)]. Aunque el intestino es la principal puerta de entrada del tóxico en la circulación sistémica, los estudios sobre su toxicidad a nivel intestinal son escasos. El objetivo de la presente tesis ha sido evaluar la toxicidad y los mecanismos de acción del Hg(II) y el MeHg a nivel intestinal. Adicionalmente, se ha ensayado la eficacia de cepas de bacterias ácido- lácticas (BAL) como estrategia de reducción de esta toxicidad. Para los estudios in vitro se ha desarrollado un modelo celular en el que se han combinado enterocitos, células mucosecretoras y macrófagos en un sistema bicameral. Las células se han expuesto a Hg(II) y MeHg (0.1-1 mg/L) durante 10 días. Los datos han evidenciado que ambas especies generan un aumento de la respuesta inflamatoria, incrementando la liberación de la citoquina IL-8 e IL-1β, y una respuesta pro-oxidante, con un aumento de las especies reactivas de oxígeno/nitrógeno (ROS/RNS) y una sobreexpresión de proteínas de estrés (HSP70, HSP90 y MT2A). Esta respuesta ha sido más notable en macrófagos, indicando que posiblemente sean las células inmunitarias las que gobiernen la respuesta al tóxico. La situación de estrés va acompañada de una alteración de la expresión de la proteína de las uniones estrechas ZO-1 y una modificación de la morfología de la monocapa. Además, la exposición genera un aumento de la secreción de mucus y una sobreexpresión de su principal mucina, principalmente a MeHg. Los mecanismos de esta hipersecreción podrían estar relacionados con la ruta IL4/IL13/STAT6. Todos estos efectos sobre la monocapa epitelial conllevan un aumento de la permeabilidad y una reducción de la capacidad de regeneración. En los ensayos in vivo se han expuesto ratones BALB/c a Hg(II) y MeHg (1- 10 mg/L) durante 4 meses a través del agua de bebida. Los datos obtenidos han confirmado lo observado in vitro. La exposición a ambas especies (especialmente a 5 y 10 mg/L) induce un proceso inflamatorio en el colon, con un aumento de las citoquinas TNF-α e IL1-β y la presencia de infiltrados de neutrófilos. Paralelamente, la exposición genera estrés oxidativo con un incremento de las ROS/RNS y los peróxidos lipídicos. Se ha confirmado in vivo la participación en esta respuesta de algunas rutas apuntadas in vitro, en concreto p38 MAPK y JNK. Además, también se evidencian alteraciones en la expresión de proteínas de las uniones estrechas y de la mucina MUC2 en el colon, acompañada de una hiperplasia de las células mucosecretoras, especialmente en los tratamientos con MeHg. En estos animales se observa, además, un aumento de la expresión de IL13 e IL4, lo que apunta a la participación de la ruta IL4/IL13/STAT6, tal y como indicaban los ensayos in vitro. Además, estos ensayos in vivo muestran un efecto de ambas especies sobre el metabolismo de la microbiota intestinal con una reducción de los contenidos luminales de los ácidos grasos de cadena corta (SCFA), aunque los cambios detectados en la composición de la microbiota son mínimos. Finalmente, los animales tratados presentan un aumento de la permeabilidad. Todos los datos obtenidos in vitro e in vivo ponen de manifiesto que una exposición continuada a Hg(II) y MeHg genera una disrupción de la barrera intestinal. Los ensayos in vitro realizados para determinar la eficacia de las cepas de BAL de origen murino LE1 y LE2 como estrategia de protección se han realizado coexponiendo el modelo celular a Hg(II) o MeHg (1 mg/L) junto con las cepas durante 7 días. Los datos obtenidos han mostrado un efecto protector de ambas cepas, con una reducción de la respuesta inflamatoria, el estrés y los efectos sobre las uniones estrechas y la producción de mucus. Asimismo, la presencia de ambas bacterias restaura parcialmente la permeabilidad y la capacidad de regeneración de las monocapas. Teniendo en cuenta que en este estudio las BAL están inactivadas térmicamente, esta protección se asocia principalmente a su capacidad de quelación del Hg, aunque no hay que descartar que algún componente estructural de la pared bacteriana pueda ejercer otro tipo de efecto beneficioso. Los ensayos in vivo para confirmar el efecto protector de las BAL se han realizado en ratones BALB/c expuestos durante 2 meses a MeHg (5 mg/L) a través del agua de bebida. Las bacterias, en este caso viables, se han administrado por sonda gástrica diariamente. Los datos obtenidos muestran que, aunque las dos cepas reducen por igual los contenidos colónicos de MeHg, la reducción de los efectos tóxicos es mucho más notable con la cepa LE1. Se observan reducciones de los contenidos de mediadores de inflamación y estrés en el colon, hay una recuperación de la expresión de proteínas constituyentes de las uniones estrechas y del mucus. Se reestablecen los niveles luminales de los metabolitos de la microbiota y se restaura parcialmente la permeabilidad intestinal. Los resultados muestran que, además del proceso de quelación, la cepa LE1 activa la ruta de señalización Nrf2/Keap1/ARE y la producción de la citoquina anti-inflamatoria IL10. Los datos obtenidos in vitro e in vivo, apuntan a que la cepa LE1 podría ser una buena alternativa para reducir la toxicidad intestinal del Hg; reducción que puede tener también repercusiones beneficiosas a nivel sistémico. / [CA] La dieta és la principal via d'exposició a mercuri (Hg) per a la majoria de la població. Les principals formes de Hg en els aliments són el metilmercuri (MeHg) i el Hg inorgànic divalent [Hg(II)]. Encara que l'intestí és la principal porta d'entrada del tòxic a la circulació sistèmica, els estudis sobre la seua toxicitat a nivell intestinal són escassos. L'objectiu de la present tesi ha sigut avaluar la toxicitat i els mecanismes d'acció del Hg(II) i el MeHg a nivell intestinal. Addicionalment, s'ha assajat l'eficàcia de soques de bacteris àcid-làctics (BAL) com a estratègia de reducció d'aquesta toxicitat. Per als estudis in vitro s'ha desenvolupat un model cel·lular en el qual s'han combinat enteròcits, cèl·lules mucosecretores i macròfags en un sistema bicameral. Les cèl·lules s'han exposat des de l'inici a Hg(II) i MeHg (0.1-1 mg/L) durant 10 dies. Les dades han evidenciat que totes dues espècies generen un augment de la resposta inflamatòria, incrementant l'alliberament de la citocina IL- 8 i IL-1β, i una resposta pro-oxidant, amb un augment de les espècies reactives d'oxigen/nitrogen (ROS/RNS) i una sobreexpressió de proteïnes d’estrès (HSP70, HSP90 i MT2A). Aquesta resposta ha sigut més notable en macròfags, indicant que possiblement són les cèl·lules immunitàries les que governen la resposta al tòxic. La situació d’estrès va acompanyada d'una alteració de l'expressió de la proteïna de les unions estretes ZO-1 i una modificació de la morfologia de la monocapa. A més, l'exposició, principalment a MeHg, genera un augment de la secreció de mucus i una sobreexpressió de la seua principal mucina. Els mecanismes d'aquesta hipersecreció podrien estar relacionats amb la ruta IL4/IL13/STAT6. Tots aquests efectes sobre la monocapa epitelial comporten un augment de la permeabilitat i una reducció de la capacitat de regeneració. En els assajos in vivo s'han exposat ratolins BALB/c a Hg(II) i MeHg (1-10 mg/L) durant 4 mesos a través de l'aigua de beguda. Les dades obtingudes han confirmat l'observat in vitro. L'exposició a totes dues espècies (especialment a 5 i 10 mg/L) indueix un procés inflamatori en el còlon, amb un augment de les citocines TNF-α i IL1-β i la presència d'infiltrats de neutròfils. Paral·lelament, l'exposició genera estrès oxidatiu amb un increment de les ROS/RNS i els peròxids lipídics. S'ha confirmat in vivo la participació en aquesta resposta d'algunes rutes apuntades in vitro, en concret p38 MAPK i JNK. A més, també s'evidencien alteracions en l'expressió de proteïnes de les unions i de la mucina MUC2 en el còlon, acompanyada d'una hiperplàsia de les cèl·lules mucosecretores, especialment en els tractaments amb MeHg. En aquests animals hi ha, a més, un augment de l'expressió d'IL13 i IL4, la qual cosa apunta a la participació de la ruta IL4/IL13/STAT6, tal com indicaven els assajos in vitro. A més, aquests assajos in vivo mostren un efecte de les espècies de Hg sobre el metabolisme de la microbiota intestinal, amb una reducció dels continguts luminals dels àcids grassos de cadena curta (SCFA), encara que els canvis en la composició de microbiota intestinal son minims. Finalment, els animals tractats presenten un augment de la permeabilitat. Totes les dades obtingudes in vitro i in vivo posen de manifest que una exposició continuada a Hg(II) i MeHg genera una disrupció de la barrera intestinal. Els assajos in vitro realitzats per a determinar l'eficàcia de les soques de BAL d'origen murí LE1 i LE2 com a estratègia de protecció s'han realitzat coexposant el model cel·lular combinat a Hg(II) o MeHg (1 mg/L) juntament amb les soques durant 7 dies. Les dades obtingudes han mostrat un efecte protector de totes dues soques, amb una reducció de la resposta inflamatòria, l'estrès i els efectes sobre les unions estretes i la producció de mucus. Així mateix, la presència dels bacteris restaura parcialment la permeabilitat i la capacitat de regeneració de les monocapes. Tenint en compte que en aquest estudi les BAL estan inactivades tèrmicament, aquesta protecció s'associa principalment a la seua capacitat de quelació del Hg, encara que no cal descartar que algun component estructural de la paret bacteriana puga exercir un altre tipus d'efecte beneficiós. Els assajos in vivo per a confirmar l'efecte protector de les BAL s'han realitzat en ratolins BALB/c exposats durant 2 mesos a MeHg (5 mg/L) a través de l'aigua de beguda. Els bacteris, en aquest cas viables, s'han administrat per sonda gàstrica diàriament. Les dades obtingudes en aquest assaig mostren que, encara que els dues soques redueixen per igual els continguts colònics de MeHg, la reducció dels efectes tòxics és molt més notable amb la soca LE1. S'observen reduccions dels continguts dels mediadors d'inflamació i estrès en el còlon, hi ha una recuperació de l'expressió de proteïnes constituents de les unions estretes i el mucus. Es restableixen els nivells luminals dels metabòlits de la microbiota i es restaura parcialment la permeabilitat intestinal. Els resultats mostren que a més del procés de quelació, la soca LE1 activa la ruta de senyalització Nrf2/Keap1/ARE i la producció de la citocina anti-inflamatòria IL10. Les dades obtingudes in vitro i in vivo apunten al fet que la soca LE1 podria ser una bona alternativa per a reduir la toxicitat intestinal del Hg; reducció que pot tindre també repercussions beneficioses a nivell sistèmic. / [EN] A cell model for in vitro studies in which enterocytes, mucosecretory cells and macrophages have been combined in a bicameral system has been developed. Cells have been exposed to Hg for 10 days. The data have shown that both species induce an inflammatory response and a pro-oxidant response, with an increase in reactive oxygen/nitrogen species and an overexpression of stress proteins. The situation of stress is accompanied by alterations in the expression of the tight junction protein ZO-1 and changes in the morphology of the intestinal monolayer. In addition, exposure, especially to MeHg, generates an increase in mucus secretion and an overexpression of its main mucin. The mechanisms of this hypersecretion could be related to the IL4/IL13/STAT6 pathway. All these effects on the epithelial monolayer lead to and increased permeability and a reduced regeneration capacity. In vivo assays have been performed in BALB/c mice exposed to Hg (1-10 mg/L) for 4 months through drinking water. The data obtained have confirmed the previous results observed in vitro. Exposure to both species induces an inflammatory process in the colon and generates oxidative stress with an increase in ROS/RNS and lipid peroxides. The participation in this response of some signaling pathways targeted in vitro has been confirmed in vivo. In addition, alterations in the expression of tight junction proteins and the mucin MUC2 in the colon are also evidenced, accompanied by a hyperplasia of the mucosecretory cells, especially in MeHg treatments. In these animals, there is also an increase in the expression of IL-13 and IL-4 cytokines, which points to the participation of the IL4/IL13/STAT6 pathway. In addition, these in vivo assays show an effect of both species on the metabolism of the intestinal microbiota, with a reduction in the luminal contents of short-chain fatty acids, although changes in the intestinal microbiota composition are minimal. Finally, the treated animals showed an increase in permeability. The in vitro studies carried out to determine the efficacy of the BAL strains of murine origin LE1 and LE2 as a strategy of protection have been performed by co-exposing the combined cell model to Hg (1 mg/L) together with the strains for 7 days. The data obtained have shown a protective effect of both strains, with a reduction in the inflammatory response, oxidative stress and the effects on tight junctions and mucus production. In the same way, the presence of both bacteria partially restores the permeability and the regenerative capacity of the monolayers. Bearing in mind that in this study the LABs are heat-inactivated, this protection is mainly associated with their ability to bind Hg, although it cannot be ruled out that some structural components of the bacterial wall may exert another type of beneficial effect. In vivo assays carry out to confirm the protective effect of LAB have been performed in BALB/c mice exposed for 2 months to MeHg (5 mg/L) through drinking water. The strains of LAB have been administered daily by gavage. Data show that, the reduction of the toxic effects is much more pronounced when LE1 strain is administrated. Reductions in the contents of inflammatory and stress mediators in the colon are observed, together with a recovery in the expression of proteins of the tight junctions and the mucus layer. The luminal levels of microbiota metabolites are restored, and intestinal permeability is partially reestablished. The results show that in addition to the chelation process, LE1 strain activates the Nrf2/Keap1/ARE signaling pathway and the production of the anti-inflammatory cytokine IL10. The data obtained in vitro and in vivo suggest that LE1 strain could be a good strategy to reduce Hg intestinal toxicity; reduction that can also have beneficial repercussions at a systemic level. / Rodríguez Viso, P. (2023). Estrategias para mitigar la toxicidad asociada a la exposición crónica al mercurio a través de la dieta [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/192865 Probiotics Intestine Toxicity Mercury Mercurio Toxicidad Intestino In vitro In vivo Probióticos Caco-2 HT29-MTX THP-1
75	Effects of oxidative stress on antioxidant defense and inflammatory response in intestinal epithelial cells Bernotti, Sandra January 2002 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Caco-2 Stress oxydatif Intégrité cellulaire Antioxydants endogènes NF-kB ICAM-1 COX-2 IL-8
76	Dietary Peroxidized Lipids and Intestinal Apolipoprotein Synthesis Jiang, Xueting 09 July 2014 (has links) No description available. Nutrition
77	Lutein and zeaxanthin: use of in vitro models to examine digestive stability, absorption, and photoprotective activity in human lens epithelial cells Chitchumroonchokchai, Chureeporn 19 October 2004 (has links) No description available. Health Sciences, Nutrition Caco-2 cells in vitro model lutein photoprotection UVB xanthophylls zeaxanthin
78	Optimized LC-MS/MS quantification method for the detection of piperacillin and application to the development of charged liposaccharides as penetration enhancers Violette, A., Cortes, D.F., Bergeon, J.A., Falconer, Robert A., Toth, I. January 2008 (has links) No / Piperacillin, a potent ß-lactam antibiotic, is effective in a large variety of Gram+ and Gram¿ bacterial infections but its administration is limited to the parenteral route as it is not absorbed when given orally. In an attempt to overcome this problem, we have synthesized a novel series of charged liposaccharide complexes of piperacillin comprising a sugar moiety derived from d-glucose conjugated to a lipoamino acid residue with varying side-chain length (cationic entity) and the piperacillin anion. A complete multiple reaction monitoring LC¿MS/MS method was developed to detect and characterize the synthesized complexes. The same method was then successfully applied to assess the in vitro apparent permeability values of the charged liposaccharide complexes in Caco-2 monolayers. / BBSRC Glycolipid LC¿MS/MS Piperacillin Charged Liposaccharide Penetration Enhancer Permeability Caco-2
79	Interactions alimentaires sur la bioaccessibilité et l'activité pro-vitaminique A du beta-carotène : effets de microconstituants phénoliques / Food interactions on the bioaccessibility and the pro-vitaminic A activity of beta-carotene : effects of phenolic micronutrients Poulaert, Marie 18 December 2012 (has links) Le β-carotène (Bc) est un caroténoïde connu pour son activité pro vitaminique A. La consommation de fruits et légumes riches en Bc est donc particulièrement encouragée, principalement dans les pays en développement. Cependant, au cours d'un repas, la biodisponibilité du Bc est influencée par la présence des macro et microconstituants des aliments. L'objectif général de ce travail a été d'étudier les interactions alimentaires pouvant survenir au cours des différentes étapes du processus d'absorption du Bc. La bioaccessibilité du Bc, évaluée à l'aide d'un modèle de digestion in vitro, a révélé que la quantité de Bc micellarisé des aliments de base (patate douce orange (PDO) et banane plantain) des pays du Sud se retrouve augmentée dans certaines préparations tratitionnelles. De plus, dans une simple association de deux aliments, nos résultats ont montré que la naringine de jus d'agrumes diminuait la bioaccessibilité du Bc de la PDO car ce flavanone se micellarise et entre en compétition avec le Bc. L'effet de flavanones sur l'absorption intestinale du Bc a ensuite été étudié à l'aide d'un modèle cellulaire de type Caco-2. L'ensemble des glycosides de flavanones testés, mais principalement l'hespéridine (Hes), ont augmenté l'absorption du Bc. L'expérimentation in vivo chez la gerbille n'a quant à elle pas montré d'effet de l'Hes sur la bioefficacité du Bc de la PDO. Par contre, nos données suggèrent que l'Hes, dans le cas d'un régime carencé en caroténoïdes et vitamine A, pourrait stimuler l'activité de la β,β-carotène mono-oxygénase par un mécanisme impliquant le facteur de transcription PPARγ. / Β-carotene (Bc) is a carotenoid mainly known for its provitaminic A activity. Therefore, the consumption of fruits and vegetables rich in Bc are promoted, especially in developing countries. However, during a meal, the Bc bioavailability was modulated by other macro or micronutrients from food. The main objective of this study was to evaluate food interaction occurring during the different steps of Bc absorption. The Bc bioaccessibility, evaluated through an in vitro digestion, showed that the micellarization of Bc staple foods from South countries (orange fleshed sweet potato (OFSP) and plantain) increases in some traditional food preparations. Moreover, we observed that the Bc bioaccessibility from OFSP decreases in the presence of Citrus juice because of the naringin which competes for incorporation into mixed micelles. Effects of flavanones were then assessed on intestinal Bc uptake using Caco-2 cells. Among flavanone glycosides tested, mainly hesperidin (Hes), increased Bc uptake. In vivo experimentation with gerbil did not shown any effect of Hes on the bioefficacity of Bc from OFSP. By contrast, our data suggest that under a low Bc or vitamin A free diet, Hes might enhance BCMO1 activity through its action as agonist of PPARγ. Patate douce à chair orange Naringine Hesperidine Cellules caco-2 Gerbille Betabeta-carotène mono-oxygénase Orange fleshed sweet potato Naringin Hesperidin Caco-2 cells Gerbil Beta Beta-carotene mono-oxygenase Beta-carotene mono-oxygenase
80	Extraction, identification et caractérisation des molécules bioactives de la graine et de l'huile de Silybum marianum. Étude de leurs activités antioxydante et antitumorale / Extraction, identification and characterization of bioactive molecules of Silybum marianum seed and oil. Study of their antioxidant and antitumoral activities Ben Rahal, Neïla 05 October 2012 (has links) L'extraction par CO2 supercritique démontre les avantages d'un procédé de chimie verte en comparant ce procédé à la méthode d'extraction par solvant organiques et en tenant compte du degré de toxicité et de pollution du solvant. L'extraction par solvants organiques met en évidence l'influence du solvant d'extraction alors que l'extraction par CO2-SC met en évidence l'influence de différents paramètres dont la pression, la température, le temps de contact entre la matrice végétale et le CO2-SC, le diamètre moyen des particules et l'ajout d'un co-solvant. L'analyse chromatographique a permis d'identifier et de quantifier les flavonolignanes (silychristine, silydianine, silybine, taxifoline) dans les extraits de graines obtenus par solvants organiques et par CO2-SC avec co-solvant. A 220 bar, les concentrations en silydianine (38,87 mg/g) et en silybine (45,91mg/g) sont les plus élevés et à 40°C les concentrations en silychristine (31,97mg/g), en silydianine (38,87 mg/g) et en silybine (45,91mg/g) sont les plus importantes. Les extraits huileux obtenus à 220 bar et à 40°C des graines de Silybum marianum sont riches en acides gras : acide linoléique (65,22%), acide oléique (27,01%), acide palmitique (12,12%). L'activité antioxydante a été évaluée par deux tests : test DPPH et test ABTS. Ces deux tests sont complémentaires et ont permis de conclure que l'extrait ayant un effet antioxydant le plus important est l'extrait obtenu par CO2-SC à 220 bar et à 40°C. L'activité biologique de cet extrait est mise en évidence par rapport à une lignée cellulaire cancéreuse du colon Caco-2. La silychristine, la silydianine et la silybine ainsi que l'extrait obtenu par CO2-SC avec co-solvant (éthanol) à 220 bar et à 40°C ont été testés vis à vis de cette lignée cancéreuse. Ces expérimentations in vitro reflètent une activité cytotoxique quantifiable et une mortalité cellulaire des Caco-2 des flavonolignanes allant jusqu'à 71% / The supercritical CO2 extraction demonstrates the benefits of green chemistry process comparing with the method of organic solvents extraction and depending to toxicity and pollution solvent degree. Organic solvents extraction shows the solvent extraction influence, so that the SC-CO2 extraction highlights different parameters including pressure, temperature, contact time between the plant matrix and CO2 SC, the average particle diameter and the addition of a cosolvent. Chromatographic analysis identified and quantified four flavonolignans (silychristin, silydianin, silybin, taxifolin) in seed extracts obtained by organic solvents and SC-CO2 with cosolvent. At 220 bar, silydianin (38.87 mg / g) and silybin (45.91 mg / g) have highest concentrations and at 40°C silychristin (31.97 mg / g), silydianin (38.87 mg / g) and silybin (45.91 mg / g) have the most important concentrations. The oily extracts obtained at 220 bar and 40°C of Silybum marianum seeds are rich in fatty acids: linoleic acid (65.22%), oleic acid (27.01%), palmitic acid (12.12%). The antioxidant activity measured by two tests: DPPH and ABTS test. These two tests are complementary and confirm that the extract with the higher antioxidant effect is the extract obtained by SC-CO2 at 220 bar and 40°C. The biological activity of this extract is demonstrated with respect to a colon cancer cell line Caco-2. Silychristin, silydianin and silybin and the extract obtained by CO2-SC with co-solvent (ethanol) at 220 bar and 40°C were tested with respect to this line cancer. These experiments in vitro cytotoxic activity reflect estimable and cell death of Caco-2 flavonolignans of up to 71% Extraction CO2 supercritique Flavonolignanes Acides gras Activité anticancéreuse Lignée cancéreuse du colon Caco-2 Extraction Supercritical CO2 Flavonolignans Fatty acids Anticancer activity Colon cancer cell line Caco-2 660.6 661.8

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