Filmes de polipirrol como matrizes para a imobilização da polifenol oxidase e aplicação como biossensores amperométricos na análise de compostos fenólicos / Polypyrrole film as matrix for the immobilization of polyphenol oxidase and application as amperometric biosensors in the analysis of phenolic

Elys Raquel Andrade Ferreira

14 December 2007

Nesta dissertação, a polifenol oxidase (PFO) como extrato bruto de abacate (Persea americana) foi imobilizada em filmes de polipirrol (PPI) sintetizados eletroquimicamente utilizando o glutaraldeído (GA) como um agente de ligação entrecruzada. Os filmes PPI e PPI/PFO-GA foram caracterizados por eletroquímica, principalmente voltametria cíclica, sendo avaliadas a eletroatividade e a reversibilidade eletroquímica. A detecção de compostos fenólicos em soluções padrão foi feita por cronoamperometria, tendo um controle sobre a concentração dos compostos. O processo de transferência de massa foi monitorado com uma microbalança de cristal de quartzo eletroquímica. Os resultados indicaram uma boa reprodutibilidade das medidas na detecção dos compostos fenólicos. A estabilidade do biossensor em uma solução tampão manteve-se durante 27 dias, um resultado aceitável já que é encontrado na literatura um tempo de vida estável para sistemas semelhantes em tomo de 30 dias / In this dissertation, polyphenol oxidase (PPO) as crude extract of avocado (Persea americana) was immobilized on electrochemical1y synthesized polypyrrole (PPY) films using glutaraldehyde (GA) as a crosslinking agent. PPY and PPY/PPO-GA films were electrochemical1y characterized, mainly by cyclic voltametry, where electroactivity and electrochemical reversibility were evaluated. The detection of phenolic compounds in standard samples was made by chronoamperometry with a control over the compound concentration. The process of mass transfer was monitored with an electrochemical quartz crystal microbalance (EQCM). Our results indicated a good repeatability of the measurements for the detection of phenolic compounds. The stability of biosensor in a buffer solution has remained for 27 days, a result acceptable since it is found in the literature a time of life stable for similar systems around 30 days

Biosensores

Polifenol oxidase (PFO)

Polipirrol (PPI)

Biosensors

Polyphenol oxidase (PPO)

Polypyrrole (PPY)

Influência do contra-íon usado na eletrossíntese do polipirrol em sua resposta como biossensor eletroquímico após a imobilização da polifenol oxidase / Influence of counter-ion used in the electrosynthesis of polypyrrole in your response as electrochemical biosensors after polyphenol oxidase immobilization

Valquiria da Cruz Rodrigues Barioto

16 July 2009

Neste trabalho, foram fabricados biossensores amperométricos a partir do uso da polifenol oxidase (PFO), obtida do abacate como fonte enzimática, imobilizada em filmes de polipirrol (PPI) e que foram eletrossintetizados em meio de três diferentes eletrólitos de suporte (NaCl e NaClO4 e NaDDS). O método de imobilização enzimática foi o da adsorção, sendo a solução de enzima adicionada à solução com o pirrol e o eletrólito durante o processo de eletropolimerização. Os filmes de PPI/PFO foram caracterizados por técnicas eletroquímicas, principalmente por voltametria cíclica. A detecção de compostos fenólicos (catecol e pirogalol) foi realizada pela técnica de cronoamperometria após se variar a concentração do analito. A morfologia dos filmes foi estudada por microscopia de força atômica (AFM), sendo observado que a presença da enzima no filme polimérico assim como o uso de diferentes eletrólitos de suporte levou a diferenças na superfície dos filmes. Além disto, verificou-se que o biossensor construído a partir do uso do NaCl, apresentava uma resposta mais eficiente, ou seja, ele foi capaz de detectar catecol e pirogalol em um menor limite de detecção. / In this study amperometric biosensors were manufactured from the use of polyphenol oxidase (PPO) obtained from avocado as a source of enzyme immobilized in polypyrrole (PPY) films that were electrosynthesized with three different support electrolytes (NaCl, NaClO4 and NaDDS). The method of enzyme immobilization was the adsorption. The PPO was added in the solution containing pyrrole and electrolyte during electropolymerization. The PPY/PPO films were characterized by electrochemical techniques mainly by cyclic voltammetry. Detection of phenolic compounds (catechol and pyrogallol) was performed by the technique of chronoamperometry after varying the concentration of the analyte. The morphology of the films was studied by the atomic force microscopy (AFM) and observed that the presence of the enzyme in the polymer film and the use of different electrolytes support led to differences in the surface of films. However it was found that the biosensor constructed from the use of NaCl showed more efficient response and it was able to detect catechol and pyrogallol in a lower limit of detection.

Biossensores

Catecol

Pirogalol

Polifenol oxidase (PFO)

Polipirrol (PPI)

Biosensors

Cathecol

Polyphenol oxidase (PPO)

Polypyrrole (PPY)

Pyrogallol

Consuming High Doses of Blueberry Polyphenols is Safe but Induces Dose-Dependent Shifts in Metabolism

Dennis P Cladis (8158140)

20 December 2019

Fruit and vegetable derived polyphenols have been linked with many health benefits. In light of this, many consumers are seeking to increase their intake of polyphenols, with many turning to dietary supplements that contain concentrated doses of purified polyphenols. However, the safety of this consumption modality is not known, nor are the dose-dependent metabolic changes that may be present, especially when considering colonically generated phenolic metabolites. Using blueberry polyphenols as a model, we explored these phenomena in a rat model. Animals were dosed with blueberry polyphenols at levels up to 20 times what would be consumed in 1-2 servings of whole blueberries in an adult human. In the first study, animals were acutely dosed with blueberry polyphenols and urine and plasma pharmacokinetics measured. In the second study, animals were repeatedly dosed for 90d, with urinary metabolites monitored throughout the study and a complete necropsy performed following standard guidelines. In both studies, metabolite excretion patterns were similar: cinnamic acids accounted for a majority of the observed metabolites, followed by hippuric acids and then phenylpropionic acids (PPA). A dose-dependent shift in metabolite production was observed; as the dose increased, the relative amounts of PPA increased while hippuric acids decreased. No adverse or toxic effects were found, and, though there were several statistically significant differences in toxicological endpoints, all measured parameters remained in the normal range for these animals and thus were not deemed biologically significant. These results indicate that high doses of blueberry polyphenols, as may be present in dietary supplements, are safe for consumption. These results also demonstrate dose-dependent shifts in metabolism that may impact gut function and affect the health benefits derived from blueberry polyphenols.<br>

Food Sciences not elsewhere classified

Blueberry

Polyphenol

Toxicity

Metabolism

Dose-Response

Storage and allogeneic transplantation of peripheral nerve using a green tea polyphenol solution in a canine model / ポリフェノール処理による末梢神経の保存と同種移植に関する犬モデルの研究

Nakayama, Ken

25 January 2016

京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第12980号 / 論医博第2106号 / 新制||医||1012(附属図書館) / 32450 / (主査)教授 髙橋 良輔, 教授 鈴木 茂彦, 教授 高橋 淳 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

allogeneic transplantation

peripheral nerve

green tea polyphenol

nerve storage

canine

490

Studies on the safety of food and feed, and on the effects of plant derivedanti-inflammatory components / 食品および飼料の安全性と植物由来抗炎症成分に関する研究

Yamamoto, Takayuki

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第19770号 / 農博第2166号 / 新制||農||1040(附属図書館) / 学位論文||H28||N4986(農学部図書室) / 32806 / 京都大学大学院農学研究科食品生物科学専攻 / (主査)教授 河田 照雄, 教授 保川 清, 教授 橋本 渉 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM

bovine spongiform encephalopathy (BSE)

food allergy

anti-inflammtory

polyphenol

610

INHIBITED MINERALIZATION IN OSTEOBLASTS CULTURED UNDER VARIED SIMULATED PARTIAL GRAVITY CONDITIONS AND THE USE OF PHYTONUTRIENTS FOR MITIGATING THE EFFECTS OF REDUCED GRAVITY

Braveboy-Wagner, Justin, 0000-0002-6301-1394

January 2022

The multifaceted adverse effects of reduced gravity on the skeletal system pose a significant challenge to human spaceflight. There is an interest in investigating any hypothetical differences between partial gravity and microgravity, and in the unmet need to identify countermeasures to both. A hypothesis to be tested is that reduced gravity impairs a variety of osteogenic cell functions, such as proliferation and differentiation, and that these inhibitory effects can be mitigated by nutritional countermeasures or by interrupting signaling pathways that drive undesired osteogenic remodeling. Utilizing the Random Positioning Machine, it is possible to simulate a variety of reduced gravity levels relevant to future manned space missions: Mars, Moon, and Microgravity of the Low Earth Orbit (LEO) environment. In this study, the effects of altered gravity on the physiology and morphology of cultured osteoblasts were investigated, specifically on their proliferation, osteogenic differentiation, and matrix mineralization. In assessing the role of mechanotransduction in microgravity-induced cytoskeletal dysfunction, this thesis also explored whether selective inhibition of specific signaling steps within the Rho-ROCK pathway can be used to modulate the effects of microgravity on osteoblast differentiation and function. Finally, in developing new countermeasures, an investigation was made into the effectiveness of curcumin and carnosic acid, two nutritional antioxidants with pro-osteogenic properties, contrasted with the trace element zinc, as potential alimentary supplements that may mitigate or alleviate the deleterious effects of microgravity. Results showed that short-term (6 days) culture yielded a dose-dependent reduction in proliferation and the enzymatic activity of alkaline phosphatase (ALP), while long-term studies (21 days) showed a distinct dose-dependent inhibition of mineralization. By contrast, expression levels of key osteogenic genes (Alkaline phosphatase, Runt-related Transcription Factor 2, Sparc/osteonectin) exhibited a threshold behavior: gene expression was significantly inhibited when the cells were exposed to Mars-simulating partial gravity, and this was not reduced further when the cells were cultured under simulated Moon or microgravity conditions. My data suggests that impairment of cell function with decreasing simulated gravity levels is graded and that the threshold profile observed for reduced gene expression is distinct from the dose dependence observed for cell proliferation, ALP activity, and mineral deposition. My studies into the gravity-induced re-organization of the cytoskeleton indicate that selective interruption of the Rho-ROCK pathway at ROCK can prevent morphological changes that result in impaired differentiation and mineralization. Further, I found that nutraceuticals partially reversed the inhibitory effects of SMG on ALP activity and promoted osteoblast proliferation and differentiation in the absence of traditional osteogenic media. I further observed a synergistic effect of the intermix of the phytonutrients on ALP activity. Intermixes of phytonutrients may serve as convenient and effective nutritional countermeasures against bone loss in space. / Bioengineering

Bioengineering

Biomedical engineering

Toxicology

Cytoskeleton

Mars

Moon

Osteoblast

Polyphenol

Simulated microgravity

Synthesis of 4'-Ester Resveratrol Analogues, Chromium Trioxide Oxidation of Terpenes, and Synthesis of Mimics of (-)-Englerin A

Acerson, Mark Jeffrey

01 August 2014

4’ -ester analogues of resveratrol were synthesized using reaction conditions developed to produce mono-ester products in the presence of two other unprotected phenols. Basic conditions were employed to deprotonate the most acidic 4’ phenol followed by addition of anhydrides or acid chlorides to give the ester product. The reaction favored 4’-ester formation in polar aprotic solvents with DMSO being the optimal solvent. (—)-Englerin A is a guaiane-type sesquiterpene containing two ester side chains. Mimics of (—)-englerin A were proposed that retained the ester side chains while replacing the non-polar core with less complicated structures. These proposed mimic cores would maintain the three-dimensional positioning of the esters which are responsible for the anti-cancer activity of (—)-englerin A. Three mimics were synthesized using the bicyclic terpenes borneol and fenchol. Installation of the second ester on the terpene core was accomplished throught the development and optimization of a unique methylene oxidation using chromium trioxide in glacial acetic acid. These mimics were screened against two kidney cancer cell lines. The compounds were shown to have IC50 (inhibitory concentration for 50 % of cells) values above 30 µM.

resveratrol

englerin A

Analogue

Mimic

polyphenol

anti-viral

anti-cancer

methylene oxidation

selective esterification

Biochemistry

Chemistry

Tannins in Natural Soil Systems

Schmidt, Michael Afton

20 April 2012

No description available.

Agriculture

Biochemistry

Environmental Science

Tannin

Polyphenol

Soil

Sorption

Metal Mobilization

Microbial Community Structure

Effect of Frozen Storage on Antioxidant Capacity, Polyphenol Oxidase Activity, and Phenolic and Flavonoid Content and Color of Pawpaw Pulp.

WANG, GAI

09 July 2013

No description available.

Food Science

Nutrition

Plant Biology

Horticulture

Antioxidant Capacity

Phenolic

Flavonoid

Pawpaw pulp

Frozen Storage

Polyphenol Oxidase

Development of Polyphenolic Nanoparticles for Biomedical Applications

Cheng, Huaitzung Andrew

January 2016

Polymeric nanoparticles have a wide range of applications, particularly as drug delivery and diagnostic agents, and tannins have been regarded as a promising building block for redox and pH responsive systems. Tannins are a class of naturally occurring polyphenols commonly produced by plants and are found in many of our consumables like teas, spices, fresh fruits, and vegetables. Many of the health benefits associated with these foods are a result of their high tannin contents and the many different types of tannins found in various plants have demonstrated therapeutic potentials for conditions ranging from cardiovascular disease and diabetes to ulcers and cancer. Diets rich in tannins have been associated with lower blood pressure in patients with hypertension. The plurality of phenols in tannins also makes them powerful antioxidants and as a result, there is a lot of interest in taking advantage of their self-assembling abilities to make redox and pH responsive drug delivery systems. However, the benefit of natural tannins is limited by their instability in physiological conditions. Furthermore, there is limited control over molecular weight and reactivity of the phenolic content of plant extracts. Herein we report the novel synthesis of pseudotannins with control over molecular weight and reactivity of phenolic moieties. These pseudotannins have can form nanoscale interpolymer complexes under physiological conditions and have demonstrated antioxidative potential. Furthermore, pseudotannin IPCs have been shown to be responsive to physiologically relevant oxidation as well as the ability to easily incorporate cell targeting peptides, fluorescent tags, and MRI contrast agents. The work presented here describes how pseudotannins would be ideally suited to minimally invasive techniques for diagnosing atherosclerotic plaques and targeting triple negative breast cancer. We demonstrate that pseudotannin can very easily and quickly form nanoscale particles that are small enough to be uptaken into mammalian cells. Furthermore, by self-assembling with gadolinium, pseudotannins can effectively attenuate the signal of gadolinium based MRI contrast agents. This in conjunction with oxidation responsive decomplexation could be a viable option for diagnosing the severity and risk of rupture of atherosclerotic plaques. Also, we demonstrate that pegylated compounds can easily be incorporated into pseudotannin nanoparticles to impart cell targeting functionality. The subsequent uptake of pseudotannin nanoparticles into breast cancer cells demonstrated the ability to increase their sensitivity to UV radiation. The creation of synthetic tannin-like polymers leads to directly to making a variety of self-assembling, stimuli responsive, and bioactive nanoparticles well-suited for various biomedical applications. / Bioengineering

Chemistry, Polymer

Engineering, Biomedical

Drug Delivery

Polyphenol

Redox-responsive

Self-assembled

Tannin