Curcurnin abrogates LPS-induced pro-inflammatory cytokines in RAW 264.7 macrophages. Evidence for novel mechanisms involving SOCS-1,-3 and p38 MAPK

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Use of natural antioxidants in soybean biodiesel

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Estudo e caracterização térmica da curcumina e de uma forma polimórfica

This paper was prepared a polymorphic from of curcumin a natural bioactive compound widely used in Indian medicine in the treatment of a range of illnesses. The preparation was the polymorphic crystallization process and solvent mixtures of organic solvents in order to change the dielectric constant of the solution to obtain crystals. The crystal of curcumin has been studied and characterized by absorption spectroscopic in the infrared, X-ray diffraction powder method and by thermo analytical techniques: thermogravimetry and differential therma analysis (TG-DTA) and differential scanning calorimetry (DSC). The DSC of the pure compound (MP=180,19ºC) showed some differences compared the compound crystallized (MP=176.63ºC) in a mixture of solvents thus indicating the phenomenon of polymorphism, and TG-DTA curve of the compound crystallized showed that this was not a solvatomorphic. Finnally the techniques of X-ray diffraction technique FTIR and powder showed a structural change in the compound crystallized, profile-based graphics when compared to the pure compound, which proves that the compound crystallized it is a polymorph

Stability at different temperatures of turmeric oleoresin encapsulated in maltodextrin/gelatin matrices by freeze-drying

Turmeric (Curcuma longa L.), which has been used for long time as a spice, food preservative and coloring agent, is a rich source of beneficial phenolic compounds identified as curcuminoids. These phenolic compounds are known for their antioxidant, anti-inflammatory and antimutagenic properties, among others. On the other hand, they are very susceptible to oxidation, requiring protection against oxygen, light and heat. This protection can be achieved by microencapsulation. In this work, the characteristics and the stability of turmeric oleoresin encapsulated by freeze-drying using mixtures of maltodextrin and gelatin as wall materials were studied. Encapsulated turmeric oleoresin was stored at –20, 25 and 60 °C, in the absence of light, and analyzed over a period of 35 days for curcumin and total phenolic contents and color. Results showed that the samples produced with 26% maltodextrin/0.6% gelatin and 22% maltodextrin/3% gelatin presented good encapsulation efficiencies and solubility. In general, the method of encapsulation employed originated products with satisfactory thermal stability, although the encapsulated materials with a higher proportion of maltodextrin in relation to gelatin had better stabilities, especially at –20 and 25 °C temperatures.

Biocompatibilidade da terapia fotodinâmica: estudo in vitro e in vivo

Pós-graduação em Ciência Odontólogica - FOA

Freeze-drying for microencapsulation of turmeric oleoresin using modified starch and gelatin

The aims of this study were to assess the turmeric oleoresin microencapsulation by freeze-drying with modified starch/gelatin and to evaluate its stability during storage at different temperatures and light. Encapsulated turmeric oleoresin w stored at −20, 25 and 60C, in the absence of light, and at 25C in the presence of light, and analyzed over a period of 6 weeks for curcumin and total phenolic contents and color. The different concentrations of wall material showed no significant effect on the curcumin retention. The best conditions for microencapsulation of turmeric oleoresin were: wall material composed of 30 g/100 g of modified starch + 1 g/100 g gelatin and mechanical homogenization. Encapsulated material was more stable during storage at −20C and less stable at 25C in the presence of light.

Microencapsulation of turmeric oleoresin in binary and ternary blends of gum arabic, maltodextrin and modified starch

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Sistemas precursores de cristais líquidos mucoadesivos para administração bucal de curcumina no tratamento do câncer bucal

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Estudo da ação de derivados semi-sintéticos de curcumina em linhagens celulares de câncer humano

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Síntese e citotoxicidade de curcuminoides e híbridos curcumina-cinamaldeído

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Metabolismo de proteínas na musculatura esquelética de animais diabéticos tratados com iogurte enriquecido com curcumina

A perda de massa muscular observada no diabetes mellitus (DM) tipo 1 é consequência da combinação entre redução na velocidade de síntese proteica e aumento na velocidade de proteólise. A curcumina, pigmento amarelo extraído dos rizomas de Curcuma longa L., promove diversos benefícios no metabolismo de carboidratos e lipídeos no DM. Deste modo, buscamos avaliar o efeito do tratamento de ratos diabéticos com curcumina incorporada em iogurte sobre o metabolismo proteico muscular. Ratos Wistar machos (150±10 g) receberam estreptozotocina (40 mg/kg, i.v.) para indução do DM e foram divididos nos grupos (n=8): diabético tratado com iogurte (DIOG), 90 mg/kg de curcumina (DC90), 4U de insulina (DINS) e ratos normais, não diabéticos, tratados com iogurte (NIOG). Após 35 dias de tratamento, os animais foram eutanasiados e os músculos esqueléticos soleus e extensor digitorium longus (EDL) foram retirados e utilizados para a determinação das atividades proteolíticas de caspase-3, calpaína e proteassoma (atividade quimiotripsina-like). O tratamento de animais diabéticos com curcumina incorporada em iogurte reduziu a glicemia, os níveis de ureia urinária e promoveu um maior ganho de peso corporal em relação aos animais diabéticos tratados somente com iogurte (DIOG). Animais DIOG apresentaram um aumento nas atividades de calpaína e proteassoma em músculos soleus e EDL em relação aos valores encontrados em músculos de animais NIOG; já o tratamento com curcumina reduziu as atividades de calpaína e proteassoma em EDL de ratos diabéticos, o que explica, pelo menos em parte, a menor perda de massa deste músculo em ratos DC90. Houve uma redução na atividade de caspase-3 em músculos de animais DIOG em comparação aos grupos...

Metabolismo de proteínas na musculatura esquelética de animais diabéticos tratados com iogurte enriquecido com curcumina

A perda de massa muscular observada no diabetes mellitus (DM) tipo 1 é consequência da combinação entre redução na velocidade de síntese proteica e aumento na velocidade de proteólise. A curcumina, pigmento amarelo extraído dos rizomas de Curcuma longa L., promove diversos benefícios no metabolismo de carboidratos e lipídeos no DM. Deste modo, buscamos avaliar o efeito do tratamento de ratos diabéticos com curcumina incorporada em iogurte sobre o metabolismo proteico muscular. Ratos Wistar machos (150±10 g) receberam estreptozotocina (40 mg/kg, i.v.) para indução do DM e foram divididos nos grupos (n=8): diabético tratado com iogurte (DIOG), 90 mg/kg de curcumina (DC90), 4U de insulina (DINS) e ratos normais, não diabéticos, tratados com iogurte (NIOG). Após 35 dias de tratamento, os animais foram eutanasiados e os músculos esqueléticos soleus e extensor digitorium longus (EDL) foram retirados e utilizados para a determinação das atividades proteolíticas de caspase-3, calpaína e proteassoma (atividade quimiotripsina-like). O tratamento de animais diabéticos com curcumina incorporada em iogurte reduziu a glicemia, os níveis de ureia urinária e promoveu um maior ganho de peso corporal em relação aos animais diabéticos tratados somente com iogurte (DIOG). Animais DIOG apresentaram um aumento nas atividades de calpaína e proteassoma em músculos soleus e EDL em relação aos valores encontrados em músculos de animais NIOG; já o tratamento com curcumina reduziu as atividades de calpaína e proteassoma em EDL de ratos diabéticos, o que explica, pelo menos em parte, a menor perda de massa deste músculo em ratos DC90. Houve uma redução na atividade de caspase-3 em músculos de animais DIOG em comparação aos grupos...

Multi-target-directed ligands: application to the Alzheimer's disease

The MTDL (multi-target-directed ligand) design strategy is used to develop single chemical entities that are able to simultaneously modulate multiple targets. The development of such compounds might disclose new avenues for the treatment of a variety of pathologies (e.g. cancer, AIDS, neurodegenerative diseases), for which an effective cure is urgently needed. This strategy has been successfully applied to Alzheimer’s disease (AD) due to its multifactorial nature, involving cholinergic dysfunction, amyloid aggregation, and oxidative stress. Despite many biological entities have been recognized as possible AD-relevant, only four achetylcholinesterase inhibitors (AChEIs) and one NMDA receptor antagonist are used in therapy. Unfortunately, such compounds are not disease-modifying agents behaving only as cognition enhancers. Therefore, MTDL strategy is emerging as a powerful drug design paradigm: pharmacophores of different drugs are combined in the same structure to afford hybrid molecules. In principle, each pharmacophore of these new drugs should retain the ability to interact with its specific site(s) on the target and, consequently, to produce specific pharmacological responses that, taken together, should slow or block the neurodegenerative process. To this end, the design and synthesis of several examples of MTDLs for combating neurodegenerative diseases have been published. This seems to be the more appropriate approach for addressing the complexity of AD and may provide new drugs for tackling the multifactorial nature of AD, and hopefully stopping its progression. According to this emerging strategy, in this work thesis different classes of new molecular structures, based on the MTDL approach, have been developed. Moreover, curcumin and its constrained analogs have currently received remarkable interest as they have a unique conjugated structure which shows a pleiotropic profile that we considered a suitable framework in developing MTDLs. In fact, beside the well-known direct antioxidant activity, curcumin displays a wide range of biological properties including anti-inflammatory and anti-amyloidogenic activities and an indirect antioxidant action through activation of the cytoprotective enzyme heme oxygenase (HO-1). Thus, since many lines of evidence suggest that oxidative stess and mitochondria impairment have a cental role in age-related neurodegenerative diseases such as AD, we designed mitochondria-targeted antioxidants by connecting curcumin analogs to different polyamine chains that, with the aid of electrostatic force, might drive the selected antioxidant moiety into mitochondria.

Lipid quality and oxidative stability in food products from animal origin, as affected by breeding factor

Nowadays it is requested more investigations on alternative rearing systems that are able to improve poultry welfare and to warrant high-quality and safe meat products. This thesis work was focused on the evaluation of the oxidative stability of poultry meats, obtained with different rearing systems, diets (supplemented with bioactive compounds), and packaging conditions. The thesis work was divided into the following parts: - Evaluation of the effects of different rearing systems on the quality, fatty acid composition and oxidative stability of poultry thigh and breast meat belonging to different product categories (“rotisserie” and “cut-up” carcasses); - Evaluation of the effects of different rearing systems and packaging conditions on the shelf-life of poultry thigh meat stored at 4°C for 14 days, and the effects of feed supplementation with thymol (control diet and diet with 2 different concentration of thymol) and packaging conditions on lipid oxidation of poultry thigh meat shelf-life (stored at 4°C for 14 days). The oxidative stability of poultry meat was studied by means of the spectrophotometric determinations of peroxide value and thiobarbituric acid reactive substances. - Evaluation of anti-inflammatory effects of different flavonoids (thymol, luteolin, tangeretin, sulforaphane, polymethoxyflavones, curcumin derivates) to detect their biological activity in LPS-stimulated RAW 264.7 macrophage cells in vitro, in order to study more in depth their action mechanisms. It was evaluated the cell vitality (MTT assay), nitrite concentration and protein profile. The study was focused on the identification of potential dietary bioactive compounds in order to investigate their biological activity and possible synergic effects, and to develop new suitable strategies for long-term promotion of human health, in particular against cancer.

Novel Nonbiologic Therapies for Ulcerative Colitis

An extensive array of compounds has been studied for the treatment of ulcerative colitis (UC). The most frequently used nonbiologic drugs for the oral and intravenous treatment of ulcerative colitis include 5-aminosalicylate (5-ASA) drugs (mesalamine and derivatives), sulfasalazine, and other azo-bonded molecules of 5-ASA, steroids, calcineurin inhibitors (cyclosporine, tacrolimus, and sirolimus), thiopurines (azathioprine, 6-mercaptopurine), and methotrexate, which are already presented in other sections of this book and are thus not considered in this chapter. The therapies presented in this section should be considered as potential alternatives, mostly for mild-to-moderate ulcerative colitis (UC). They are substances mostly used without FDA indications, such as heparin, nicotine, rosiglitazone, and N-acetylcysteine as well as “natural” compounds suggested to have anti-inflammatory or reparative properties, such as aloe vera, curcumin, short-chain fatty acids, and Bowman-Birk inhibitor