Miriam Teresa Paz Lopes

Antioxidant and cytotoxic activities of Centella asiatica (L) Urb.

In the present study, the phenolic (Folin-Dennis) and flavonoid (colorimetric assay) constituents, antioxidant [2,2-diphenyl-2-picrylhydrazyl hydrate (DPPH) assay] and cytotoxic activities of an aqueous extract (AE) of Centella asiatica leaves were investigated. The aqueous extract (50 g/L) was obtained by infusion followed by cold maceration for 24 h. The levels of phenolic and flavonoid compounds were 2.86 g/100 g and 0.361 g/100 g, respectively. The AE showed elevated DPPH scavenging activity, with an IC50 value of 31.25 μg/mL. The AE had a promising activity against mouse melanoma (B16F1), human breast cancer (MDA MB-231) and rat glioma (C6) cell lines, with IC50 values of 698.0, 648.0 and 1000.0 μg/mL, respectively. A positive correlation was established between the level of flavonoids, antioxidant and antitumor activities.

Plant cysteine proteinases: Evaluation of the pharmacological activity

Cysteine proteinases are involved in virtually every aspect of plant physiology and development. They play a role in development, senescence, programmed cell death, storage and mobilization of germinal proteins, and in response to various types of environmental stress. In this review, we focus on a group of plant defensive enzymes occurring in germinal tissue of Caricaceae. These enzymes elicit a protective response in the unripe fruit after physical stress. We propose that these enzymes follow a strategy similar to mammalian serine proteinases involved in blood clotting and wound healing. We show evidence for the pharmacological role of plant cysteine proteinases in mammalian wound healing, immunomodulation, digestive conditions, and neoplastic alterations.

The proteolytic activities in latex from Carica candamarcensis.

Prior evidence suggests that proteinases in latex from Caricaceae protect against injuries induced by physical wounding. While the proteolytic enzymes from Carica papaya are well characterized, the homologues from Carica candamarcensis were not given similar attention, probably because its distribution is restricted to South American regions. We describe the chromatographic steps to fractionate 14 components from C. candamarcensis, 12 of them displaying amidase activity. The mass of these proteins plus two others isolated by HPLC rank between 23,943 and 22,991Da, and their N-terminal sequences showed similarities or identities with the enzymes described earlier in this species. Following CM-Sephadex chromatography two major peaks containing proteolytic activity were resolved. Each of these peaks was further resolved by Mono S chromatography yielding several purified fractions. The kinetic parameters of two of the Mono S purified enzymes originated from each of the CMS-Sephadex peaks were determined. While the Km with (Pyr-Phe-Leu-pNA), is similar in both enzymes, the kcat for one of them is 10-fold lower than the other. Based on these differences it is proposed that two groups of proteinases exist in latex of C. candamarcensis.

A Supramolecular Complex between Proteinases and β-Cyclodextrin that Preserves Enzymatic Activity

BackgroundCyclodextrins are suitable drug delivery systems because of their ability to subtly modify the physical, chemical, and biological properties of guest molecules through labile interactions by formation of inclusion and/or association complexes. Plant cysteine proteinases from Caricaceae and Bromeliaceae are the subject of therapeutic interest, because of their anti-inflammatory, antitumoral, immunogenic, and woundhealing properties.MethodsIn this study, we analyzed the association between β-cyclodextrin (βCD) and fraction P1G10 containing the bioactive proteinases from Carica candamarcensis, and described the physicochemical nature of the solid-state self-assembled complexes by Fourier transform infrared (FTIR) spectroscopy, thermogravimetry (TG), differential scanning calorimetry (DSC), X-ray powder diffraction (XRD), and nuclear magnetic resonance (NMR), as well as in solution by circular dichroism (CD), isothermal titration calorimetry (ITC), and amidase activity.Results and discussionThe physicochemical analyses suggest the formation of a complex between P1G10 and βCD. Higher secondary interactions, namely hydrophobic interactions, hydrogen bonding and van der Waals forces were observed at higher P1G10: βCD mass ratios. These results provide evidence of the occurrence of strong solid-state supramolecular non-covalent interactions between P1G10 and βCD. Microcalorimetric analysis demonstrates that complexation results in a favorable enthalpic contribution, as has already been described during formation of similar βCD inclusion compounds. The amidase activity of the complex shows that the enzyme activity is not readily available at 24 hours after dissolution of the complex in aqueous buffer; the proteinase becomes biologically active by the second day and remains stable until day 16, when a gradual decrease occurs, with basal activity attained by day 29.ConclusionThe reported results underscore the potential for βCDs as candidates for complexing cysteine proteinases, resulting in supramolecular arrays with sustained proteolytic activity.

Wound-healing activity of a proteolytic fraction from Carica candamarcensis on experimentally induced burn.

Carica candamarcensis is a species from the Caricaceae family whose immature fruit contains latex with large amounts of cysteine proteinases. In prior studies, we isolated two of these enzymes displaying mitogenic activity when incubated with L929 fibroblastic cells. One of the fractions containing these enzymes (P1G10) was shown to enhance wound healing of skin and to accelerate healing of chemically induced gastric ulcer. In this study we evaluate the effect of P1G10 on heat-induced, third-degree burn using a rodent model. The results show that 0.1% P1G10 accelerates epithelisation while the effect of 1% or 0.01% P1G10 is not significantly different to 1% silver sulphadiazine, 2% papain or the hydrosoluble vehicle used as control. In a double-blind randomised experiment comparing the healing response of 0.1%, 1% and the vehicle alone, we confirmed the enhanced healing property of P1G10. Histological analysis of burn-tissue sections following treatment with P1G10 support these observations. These results extend the healing properties of these groups of enzymes to a different type of trauma and open the way to future clinical applications.

Thalidomide attenuates mammary cancer associated-inflammation, angiogenesis and tumor growth in mice.

Thalidomide has proven to exert anti-inflammatory, anti-proliferative and anti-angiogenic activities in both neoplastic and non-neoplastic conditions. We investigated the effects of this compound on key components (blood vessel formation, inflammatory cell recruitment/activation, cytokine production) of 4T1 mammary tumor in mice. In addition, tumor growth and lung metastasis were evaluated. 4T1 cells were injected subcutaneously into Balb/c mice. After tumor engraftment (5days), thalidomide (150mg/kg) was administered to the treated group for 7days. Tumors of control (saline) and treated groups were sized regularly, removed 12days after inoculation and processed for biochemical and immunohistological parameters to assess neovascularization, inflammation and proliferative activity. Daily oral dose of thalidomide was able to reduce in 46% the tumor volume. The number of metastasis in the lungs was less in the thalidomide-treated group compared with the control animals. Assessment of tumor vascularization revealed a significant decrease in blood vessels formation by thalidomide. Likewise, the expression of FGF-1 showed weaker cytoplasmic positivity in the group treated with thalidomide compared with the control group. The levels of two cytokines, VEGF (pro-angiogenic) and TNF-α (pro-inflammatory) were decreased in tumor samples of thalidomide-treated group compared with the control group. Accumulation of neutrophils or macrophages in the 4T1 tumor measured by the activities of inflammatory enzymes, myeloperoxidase (MPO) for neutrophils and N-acetyl-β-D-glucosaminidase (NAG) for macrophages was inhibited by the treatment. By targeting key components of 4T1 tumor simultaneously, thalidomide was effective in attenuating tumor growth and metastasis. This approach, suppression of inflammation and angiogenesis may provide further insights for both prevention and treatment of cancer.

Plant Proteinases and Inhibitors: An Overview of Biological Function and Pharmacological Activity

Proteinases play a fundamental metabolic role during the life cycle in the plant kingdom. By interacting with endogenous or exogenous inhibitors, the proteolytic activity is modulated to meet metabolic requirements. By probing proteolytic enzymes with their inhibitors, it is possible to identify novel functions unrelated to their proteolytic activity. A group of plant proteolytic enzymes stands as a line of defence against environmental changes as their activation is triggered following various types of stress. On the other hand, plants also contain proteinase inhibitors as countermeasures for their protection against insects and pests. Both proteinases and inhibitors emerge as useful tools to combat human diseases. This review focuses on the biochemical characterization of plant proteinases, their inhibitors, the pharmacological potential of proteinases and inhibitors, and new putative emerging functions of proteolytically inhibited proteinases.

Novel antitumor adamantane–azole gold(I) complexes as potential inhibitors of thioredoxin reductase

AbstractGold complexes that could act as antitumor agents have attracted great attention. Heterocyclic compounds and their metal complexes display a broad spectrum of pharmacological properties. The present study reports the preparation and characterization of four novel gold(I) complexes containing tertiary phosphine and new ligands 5-adamantyl-1,3-thiazolidine-2-thione, 3-methyladamantane–1,3,4-oxadiazole-2-thione. Spectroscopic data suggest that gold is coordinated to the exocyclic sulfur atom in all cases, as confirmed by X-ray crystallographic data obtained for complex (1) and supported by quantum–mechanical calculations. The cytotoxicity of the compounds has been evaluated in comparison to cisplatin and auranofin in three different tumor cell lines, colon cancer (CT26WT), metastatic skin melanoma (B16F10), mammary adenocarcinoma (4T1) and kidney normal cell (BHK-21). The gold complexes were more active than their respective free ligands and able to inhibit the thioredoxin reductase (TrxR) enzyme, even in the presence of albumin. Molecular modeling studies were carried out to understand the interaction between the compounds and the TrxR enzyme, considered as a potential target for new compounds in cancer treatment. The docking results show that the adamantane ring is essential to stabilize the ligand–enzyme complex prior the formation of covalent bond with gold center.Graphical abstractThe structure of the new gold compounds was established on the basis of spectroscopic data, DFT calculations and X-ray diffraction. TrxR inhibition was evaluated and the results correlated with the assays in tumor cells, suggesting the TrxR as possible target for these compounds.

SYNTHESIS OF NOVEL AND HARDLY-OBTAINABLE 1,2,3-TRIAZOLES WITH POTENTIAL ANTITUMORAL ACTIVITY BY A DIAZO-TRANSFER REACTION FROM 5,7-DINITRO-3-DIAZO-1,3- DIHYDRO-2H-INDOL-2-ONE TO ENAMINONES

Novel and barely accessible 1,2,3-triazoles with potential antitumoral activity were synthesized with good to moderate yields by a diazo-transfer process from 5,7-dinitro-3-diazo-l,3-dihydro-2H-indol-2-one to enaminones. Introduction In the last few years, the attention paid to 1,2,3-triazole systems has quickly increased. Some of these compounds have revealed several pharmacological activities such as antifungal, antibacterial, antiviral, anticonvulsive and some other potent inhibitory activities such as of HIV-1 reverse transcriptase (1). In a recent work, it was verified that a steroidal 1,2,3-triazole inhibited the growth of human prostate cancer cell lines in in vitro and in vivo experiments (2). Among the known preparation methods of the 1,2,3-triazole ring, the most common is the 1,3-dipolar cycloaddition reaction between substituted acetylenes and alkyl azides (3-5). Remarkably, solid-phase synthesis of functional ized triazoles by these cycloaddition routes was recently reported (6,7). Some years ago, an innovative methodology regarding the synthesis of simple 1.2.3-triazoles 3 was reported (8,9). Such procedure involves a transfer of two nitrogen atoms from 5,7-dinitro-3-diazo-l,3-dihydro-2H-indol-2-one 1 (9) to enaminones 2 (10), as displayed in Scheme 1. Another analogous method to prepare 1,2,3-triazoles recently reported consists in a diazo-transfer from mesyl azide 4 to enaminones 2 in the presence of sodium hydride (Scheme 1) (11). Scheme 1 R2-N / R 1 or 4 J ! Ο R Η Ri Η R2 The uncomplicated preparation of diazo-transfer compounds (1 and 4) as well as enaminones 2 makes these methodologies extremely promising Furthermore, these methods exhibit unique advantages, such as: avoiding the use

Preparation and biocompatibility of poly (methyl methacrylate) reinforced with bioactive particles

Calcium phosphates and bioactive glasses have been used in many biomedical applications for more than 30 years due basically to their bioactive behavior. However, ceramics are too brittle for applications that require high levels of toughness and easy processability. In this work, a biphasic calcium phosphate (BCP) and a bioactive glass composition (BG) were combined with polymers to produce composites with tailorable properties and processability. The BCP particles were synthesized by a precipitation technique. The BG particles were produced by sol-gel processing. The BCP particles were treated with a silane agent to improve the compatibility between particles and the polymer matrix. Dense samples were produced by hot pressing (200 °C) a mixture of 30 wt.% of particles in poly (methyl methacrylate). The samples produced were characterized by X-ray diffraction, infrared spectroscopy and scanning electron microscopy. Mechanical properties were evaluated by a three point bending test. Samples were also submitted to in vitro bioactivity test and in vivo toxicity test. Results showed that the production of the composites was successfully achieved, yielding materials with particles well dispersed within the matrices. Evaluation of the in vivo inflammatory response showed low activity levels for all composites although composites with silane treated BCP particles led to milder inflammatory responses than composites with non-treated particles.