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HIV-1 associated neuroinflammation : effects of two complimentary medicines illustrated in an in vitro model of the blood-brain barrierAfrica, Luan Dane 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Background: Neuroinflammation is central to the aetiology of HIV-associated neurocognitive disorders (HAND) that are prevalent in late stage AIDS. ARV treatments are rolled out relatively late in the context of neuroinflammatory changes, so that their usefulness in directly preventing HAND is probably limited. It is common practice for HIV+ individuals in developing countries to make use of traditional/complimentary medicines. One such medicine is Sutherlandia frutescens - commonly consumed as a water infusion. We have also identified a new candidate complimentary medicine for use in this context - grape seed-derived proanthocyanidolic oligomers (PCO) have significant anti-inflammatory action in the peripheral compartment in the context of e.g. skeletal muscle injury, but have not been investigated in the context of either neuroinflammation or HIV/AIDS. Here the efficacy of these two substances as an anti-inflammatory modality in this context was investigated in an in vitro co-culture model of the blood-brain barrier (BBB).
Methods: Single cultures of human astrocytes, HUVECs and primary human monocytes, as well as co-cultures (BBB), were stimulated with HIV-1 subtype B & C Tat protein and/or HL2/3 cell secretory proteins after pre-treatment with S. frutescens or PCO extracts. Effects of this pre-treatment on pro-inflammatory mediator expression and monocyte migration across the BBB were assessed. Results: In accordance with others, B Tat was more pro-inflammatory than C Tat, validating our model. S. frutescens decreased IL-1β secretion significantly (P<0.0001), but exacerbated both monocyte chemoattractant protein-1 (P<0001) – a major role player in HIV-associated neuroinflammation – and CD14+ monocyte infiltration across the BBB (P<0.01). PCO pre-treatment resulted in a significantly dampened IL-1β (P<0.0001) response to stimulation with HIV-associated proteins. In contrast to S. frutescens, PCO modulated monocyte chemoattractant protein-1 (P<0001) response and decreased capacity for CD14+ monocytes to migrate across the simulated BBB (P<0.0001). Additionally, PCO pre-treatment decreased both GFAP (P<0.001) and HSP-27 (P<0.001) expression in the astrocytes of the BBB.
Conclusions: Current data illustrates that the combined use of HL2/3 cells and the simulated BBB presents an accurate, disease relevant in vitro model with which to study neuroinflammation in the context of HIV/AIDS. In addition, our results caution against the use of S. frutescens as anti-inflammatory modality at any stage post-HIV infection. Novel data presented here illustrate that PCO is able to blunt the MCP-1 and IL-1β response to HIV-1 proteins in single cultures of human astrocytes and HUVECs, as well as in an in vitro simulation of the BBB. In addition, PCO was able to limit monocyte transmigration across the simulated BBB in response to HIV-1 proteins generated by HL2/3 cells. This suggests that grape seed-derived PCO could be considered as complimentary anti-neuroinflammatory drug in the context of HIV/AIDS. / AFRIKAANSE OPSOMMING: Agtergrond: Neuroinflammasie staan sentraal in die ontwikkeling van MIV-verwante toestande wat gekenmerk word deur neurokognitiewe afteruitgang, veral in die later stadia van die siekte. Aangesien anti-virale middels relatief laat toegedien word in die konteks van neuroinflammasie, is hul rol in die voorkoming van neuroinflammatoriese veranderinge heel moontlik weglaatbaar.
MIV+ individue, veral in ontwikkelende lande, gebruik algemeen natuurlike medisinale preparate. Sutherlandia frutescens is een so „n middel wat as „n tee ingeneem word. Verder het ons ook „n nuwe kandidaat komplimentêre medisyne identifiseer – druiwepitekstrak wat polifenole bevat (PCO) het aansienlike anti-inflammatoriese eienskappe in die periferie, bv. in die konteks van skeletspierskade, maar die middel is nog nie voorheen in die konteks van neuroinflammasie of MIV/VIGS ondersoek nie. Hier word die anti-inflammatoriese effektiwiteit van beide middels in hierdie konteks ondersoek deur gebruik te maak van „n in vitro simulasie van die bloedbreinskans (BBS).
Metodes: Kulture van menslike astrosiete, menslike naelstring endoteelselle (HUVECs) en primêre menslike monosiete, sowel as gesamentlike kulture (BBS) is met MIV-1 subtipe B en C Tat proteïen en/of HL2/3 selprodukte gestimuleer na voorafbehandeling met S. frutescens of PCO ekstrakte. Effekte op pro-inflammatoriese mediator uitdrukking sowel as monosiet migrasie oor die BBS is ondersoek. Resultate: In ooreenstemming met die literatuur was B Tat meer inflammatories as C Tat, wat die akkuraatheid en gepastheid van ons model bevestig. . S. frutescens het afskeiding van IL-1β betekenisvol verminder (P<0.0001), maar het afskeiding van beide monosiet chemoaantrekkingsproteïen-1 – „n groot rolspeler in MIV-verwante neuroinflammasie – en CD14+ monosiet migrasie oor die BBS vererger (P<0.0001 en P<0.01 onderskeidelik). PCO behandeling het „n betekenisvolle demping van die IL-1β reaksie (P<0.0001) op stimulasie met MIV-geassosieerde proteïene tot gevolg gehad. Anders as S. frutescens het PCO die MCP-1 reaksie, asook CD14+ monosiet migrasie betekenisvol inhibeer. Verder het PCO ook beide GFAP en HSP-27 uitdrukking in astrosiete van die BBS verminder (beide P<0.001).
Gevolgtrekkings: Huidige data wys dat die gekombineerde gebruik van HL2/3 selle en die gesimuleerde BBS „n akkurate en fisiologies relevante in vitro model daarstel, waarmee neuroinflammasie in die konteks van MIV/VIGS bestudeer kan word. Ons resultate waarsku verder teen die gebruik van S. frutescens as anti-inflammatoriese middel in selfs die vroeë stadium na MIV infeksie. Oorspronklike data wat hier aangebied word illustreer dat PCO die pro-inflammatoriese reaksie op MIV-proteïene in kulture van astrosiete en HUVECs, asook die in vitro simulasie van die BBS, effektief demp. Verder het PCO die vermoë getoon om monosiet migrasie oor die BBS, in reaksie op MIV-1 proteïene wat hul oorsprong uit HL2/3 selle het, te beperk. Hierdie bevindings beteken dat PCO dus eerder as S. frutescens oorweeg moet word as komplimentêre anti-inflammatoriese medisyne in die konteks van MIV/VIGS.
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Evaluation of Peanut Skin Extract, Grape Seed Extract, and Grape Seed Extract Fractions to Reduce Populations of Select Foodborne PathogensLevy, Jason M. 10 June 2014 (has links)
Grape seed extract (GSE) and peanut skin extract (PSE) are waste products in the wine and peanut industries. Both extracts have high concentrations of polyphenols, known to possess antioxidant and antimicrobial properties. A subcategory of polyphenol is procyanidin, which can be divided into two types, type A and type B. Type A (PSE), contains two single bonds connecting the phenolic groups while type B (GSE), contains one single bond connecting the phenolic groups. The minimum inhibitory concentration (MIC) of the two extracts was evaluated for their antimicrobial effect on Listeria monocytogenes, Staphylococcus aureus, Escherichia coli O157:H7, and Salmonella Typhimurium using the pour plate method. GSE was found to have a significantly lower MIC (p ≤ 0.05) than PSE for L. monocytogenes (GSE=60.60ppm, PSE=not found), S. aureus (GSE=38.63ppm, PSE=51.36ppm), and S. Typhimurium (GSE=45.73ppm, PSE=60.60ppm). There was no significant difference in inhibition of E. coli O157:H7 (GSE=47.44ppm, PSE=51.13ppm). Since GSE, contributed to greater pathogen inhibition, its extract was fractionated into monomer and oligomers components. Growth curves of all four pathogens inoculated in the monomer and oligomer fractions were compared using the BioScreen method. Oligomers inhibited growth of L. monocytogenes, S. aureus, and E. coli O157:H7 while monomers inhibited growth of S. Typhimurium. These results indicate that an extract with type B procyanidins that are high in oligomers may be more effective as antimicrobials. Type B procyanidins have also been shown to prevent bacterial adhesion, as is the case with urinary tract infections, and may aid in the prevention of biofilms. / Master of Science in Life Sciences
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Colonic metabolism of dietary grape seed extract: Analytical method development, effect on tight-junction proteins, tissue accumulation, and pan-colonic pharmacokineticsGoodrich, Katheryn Marie 31 March 2015 (has links)
Procyanidins (PCs) have been extensively investigated for their potential health protective activities, but the prospective bioactivities are limited by their poor bioavailability. The majority of the ingested dose remains unabsorbed and reaches the colon where extensive microbial metabolism occurs. The objectives of these studies are to better understand the roles and activities of PCs in the lower gastrointestinal tract. First, a new high-throughput Ultra Performance Liquid Chromatography-Tandem Mass Spectrometry method was developed to efficiently analyze PCs and an extensive profile of their microbial metabolites. This method is sufficiently sensitive and effective in simultaneously extracting and measuring native PCs and their microbial metabolites in biological samples. Furthermore, administration of grape seed extract increased the expression of gut junction protein occludin and reduced levels of fecal calprotectin, which suggests an improvement of gut barrier integrity and a potential modulation of endotoxemia. Additionally, chronic supplementation of the diet with flavanols did not increase colonic tissue accumulation of PCs or their microbial metabolites over a 12 week feeding study. This was the first long-term study of its kind, and the results indicate that we still do not fully understand the outcome of ingested flavanols in the colon during chronic exposure rather than acute doses. Lastly, new understanding of the microbial metabolism of PCs in the colon has been reached by studying the colon as 4 segments, rather than as a complete unit as previous studies have done. Data show that a gradient is established along the length of the colon for both PCs and their metabolites, with PCs reaching highest concentrations within 3 h after ingestion, while metabolites reach maximum concentrations anywhere form 3-18 h after ingestion. Moreover, data indicate the progressive, step-wise degradation of PCs into small metabolites throughout the length of the colon. Overall, there is greater understanding of the colonic metabolism of dietary PCs derived from GSE and cocoa, the accumulation of these compounds, and their effect on gut permeability. Future work will build off of these novel studies, and will continue to advance the understanding of the health benefits of dietary PCs. / Ph. D.
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The Anti-toxin Properties of Grape Seed Phenolic CompoundsCherubin, Patrick 01 January 2014 (has links)
Corynebacterium diphtheriae, Pseudomonas aeruginosa, Ricinus communis, Shigella dysentariae, and Vibrio cholerae produce AB toxins which share the same basic structural characteristics: a catalytic A subunit attached to a cell-binding B subunit. All AB toxins have cytosolic targets despite an initial extracellular location. AB toxins use different methods to reach the cytosol and have different effects on the target cell. Broad-spectrum inhibitors against these toxins are therefore hard to develop because they use different surface receptors, entry mechanisms, enzyme activities, and cytosolic targets. We have found that grape seed extract provides resistance to five different AB toxins: diphtheria toxin (DT), P. aeruginosa exotoxin A (ETA), ricin, Shiga toxin, and cholera toxin (CT). To identify individual compounds in grape seed extract that are capable of inhibiting the activities of these AB toxins, we screened twenty common phenolic compounds of grape seed extract for anti-toxin properties. Three compounds inhibited DT, four inhibited ETA, one inhibited ricin, and twelve inhibited CT. Additional studies were performed to determine the mechanism of inhibition against CT. Two compounds inhibited CT binding to the cell surface and even stripped bound CT off the plasma membrane of a target cell. Two other compounds inhibited the enzymatic activity of CT. We have thus identified individual toxin inhibitors from grape seed extract and some of their mechanisms of inhibition against CT. This work will help to formulate a defined mixture of phenolic compounds that could potentially be used as a therapeutic against a broad range of AB toxins.
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