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3. Effects of Eugenol and Dehydrodieugenol B from Nectandra leucantha against Lipopolysaccharide (LPS)-Induced Experimental Acute Lung Inflammation.

Author

Bittencourt-Mernak MI, Pinheiro NM, da Silva RC, Ponci V, Banzato R, Pinheiro AJMCR, Olivo CR, Tibério IFLC, Lima Neto LG, Santana FPR, Lago JHG, and Prado CM

Subjects
Acute Lung Injury chemically induced, Animals, Brazil, Lipopolysaccharides, Male, Mice, Mice, Inbred BALB C, Phytochemicals pharmacology, Plant Leaves chemistry, Pneumonia chemically induced, RAW 264.7 Cells, Acute Lung Injury drug therapy, Anisoles pharmacology, Eugenol pharmacology, Lauraceae chemistry, Pneumonia drug therapy
Abstract

Acute lung injury (ALI) is an important public health problem. The present work investigated whether dehydrodieugenol B treatment, a compound isolated from Brazilian plant Nectandra leucantha (Lauraceae), modulates experimental ALI and compared the observed effects to eugenol. Effects of dehydrodieugenol B in vitro in lipopolysaccharide (LPS)-stimulated RAW 264.7 cells were evaluated. The lung and systemic inflammatory profile, lung function, and possible mechanisms involved in BALB/C male mice (6-8 weeks) with ALI induced by LPS instillation (5 mg/kg) was assayed. Dehydrodieugenol B did not affect the cell viability and inhibited the increase in NO release and IL-1β and IL-6 gene expression induced by LPS. In vivo , both compounds reduced lung edema, inflammatory cells, and the IL-6 and IL-1 β levels in bronchoalveolar lavage fluid, as well as reduced inflammatory cell infiltration and those positive to iNOS, MMP-9, and TIMP-1, and reduced the collagen content and the 8-isoprostane expression in lung tissue. Eugenol and dehydrodieugenol B also inhibited the phosphorylation of Jc-Jun-NH2 terminal Kinase (JNK), a signaling protein involved in the MAPKinase pathway. There was no effect of these compounds in lung function. Therefore, eugenol and dehydrodieugenol B ameliorates several features of experimental ALI and could be considered as a pharmacological tool to ameliorate acute lung inflammation.

Published
2021
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4. Biseugenol Exhibited Anti-Inflammatory and Anti-Asthmatic Effects in an Asthma Mouse Model of Mixed-Granulocytic Asthma.

Author

Ponci V, Silva RC, Santana FPR, Grecco SS, Fortunato CRM, Oliveira MA, Tavares-de-Lima W, Olivo CR, Tibério IFLC, Gomes KS, Prado CM, and Lago JHG

Subjects
Animals, Anti-Asthmatic Agents chemistry, Anti-Asthmatic Agents pharmacology, Anti-Inflammatory Agents pharmacology, Asthma complications, Asthma physiopathology, Biological Availability, Biphenyl Compounds chemistry, Biphenyl Compounds pharmacology, Biphenyl Compounds therapeutic use, Computer Simulation, Disease Models, Animal, Granulocytes drug effects, Inflammation complications, Inflammation drug therapy, Lignans chemistry, Lignans pharmacology, Lignans therapeutic use, Linear Models, Male, Mice, Inbred BALB C, Phenyl Ethers chemistry, Phenyl Ethers therapeutic use, Respiratory Function Tests, Respiratory Hypersensitivity complications, Respiratory Hypersensitivity drug therapy, Respiratory Hypersensitivity physiopathology, Anti-Asthmatic Agents therapeutic use, Anti-Inflammatory Agents therapeutic use, Asthma drug therapy, Granulocytes pathology, Phenyl Ethers pharmacology
Abstract

In the present work, the anti-inflammatory and antiasthmatic potential of biseugenol, isolated as the main component from n -hexane extract from leaves of Nectandra leucantha and chemically prepared using oxidative coupling from eugenol, was evaluated in an experimental model of mixed-granulocytic asthma. Initially, in silico studies of biseugenol showed good predictions for drug-likeness, with adherence to Lipinski's rules of five (RO5), good Absorption, Distribution, Metabolism and Excretion (ADME) properties and no alerts for Pan-Assay Interference Compounds (PAINS), indicating adequate adherence to perform in vivo assays. Biseugenol (20 mg·kg -1 ) was thus administered intraperitoneally (four days of treatment) and resulted in a significant reduction in both eosinophils and neutrophils of bronchoalveolar lavage fluid in ovalbumin-sensitized mice with no statistical difference from dexamethasone (5 mg·kg -1 ). As for lung function parameters, biseugenol (20 mg·kg -1 ) significantly reduced airway and tissue damping in comparison to ovalbumin group, with similar efficacy to positive control dexamethasone. Airway hyperresponsiveness to intravenous methacholine was reduced with biseugenol but was inferior to dexamethasone in higher doses. In conclusion, biseugenol displayed antiasthmatic effects, as observed through the reduction of inflammation and airway hyperresponsiveness, with similar effects to dexamethasone, on mixed-granulocytic ovalbumin-sensitized mice.

Published
2020
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5. Dehydrodieugenol improved lung inflammation in an asthma model by inhibiting the STAT3/SOCS3 and MAPK pathways.

Author

Santana FPR, da Silva RC, Ponci V, Pinheiro AJMCR, Olivo CR, Caperuto LC, Arantes-Costa FM, Claudio SR, Ribeiro DA, Tibério IFLC, Lima-Neto LG, Lago JHG, and Prado CM

Subjects
Animals, Asthma metabolism, Dose-Response Relationship, Drug, Eugenol isolation & purification, Eugenol pharmacology, Eugenol therapeutic use, Lauraceae, Lignans isolation & purification, Lignans pharmacology, MAP Kinase Signaling System physiology, Male, Mice, Mice, Inbred BALB C, Plant Extracts isolation & purification, Plant Extracts pharmacology, Plant Extracts therapeutic use, Pneumonia metabolism, RAW 264.7 Cells, STAT3 Transcription Factor metabolism, Suppressor of Cytokine Signaling 3 Protein metabolism, Asthma drug therapy, Eugenol analogs & derivatives, Lignans therapeutic use, MAP Kinase Signaling System drug effects, Pneumonia drug therapy, STAT3 Transcription Factor antagonists & inhibitors, Suppressor of Cytokine Signaling 3 Protein antagonists & inhibitors
Abstract

Background: Eugenol, a common phenylpropanoid derivative found in different plant species, has well-described anti-inflammatory effects associated with the development of occupational hypersensitive asthma. Dehydrodieugenol, a dimeric eugenol derivative, exhibits anti-inflammatory and antioxidant activities and can be found in the Brazilian plant species Nectandra leucantha (Lauraceae). The biological effects of dehydrodieugenol on lung inflammation remain unclear., Purpose: This study aimed to investigate the effects of eugenol and dehydrodieugenol isolated from N. leucantha in an experimental model of asthma., Methods: In the present work, the toxic effects of eugenol and dehydrodieugenol on RAW 264.7 cells and their oxidant and inflammatory effects before lipopolysaccharide (LPS) exposure were tested. Then, male BALB/c mice were sensitized with ovalbumin through a 29-day protocol and treated with vehicle, eugenol, dehydrodieugenol or dexamethasone for eight days beginning on the 22nd day until the end of the protocol. Lung function; the inflammatory profile; and the protein expression of ERK1/2, JNK, p38, VAChT, STAT3, and SOCS3 in the lung were evaluated by immunoblotting., Results: Eugenol and dehydrodieugenol were nontoxic to cells. Both compounds inhibited NO release and the gene expression of IL-1β and IL-6 in LPS-stimulated RAW 264.7 cells. In OVA-sensitized animals, dehydrodieugenol reduced lung inflammatory cell numbers and the lung concentrations of IL-4, IL-13, IL-17, and IL-10. These anti-inflammatory effects were associated with inhibition of the JNK, p38 and ERK1/2, VAChT and STAT3/SOCS3 pathways. Moreover, treatment with dehydrodieugenol effectively attenuated airway hyperresponsiveness., Conclusion: The obtained data demonstrate, for the first time, that dehydrodieugenol was more effective than eugenol in counteracting allergic airway inflammation in mice, especially its inhibition of the JNK, p38 and ERK1/2, components of MAPK pathway. Therefore, dehydrodieugenol can be considered a prototype for the development of new and effective agents for the treatment of asthmatic patients., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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6. Improving the drug-likeness of inspiring natural products - evaluation of the antiparasitic activity against Trypanosoma cruzi through semi-synthetic and simplified analogues of licarin A.

Author

Morais TR, Conserva GAA, Varela MT, Costa-Silva TA, Thevenard F, Ponci V, Fortuna A, Falcão AC, Tempone AG, Fernandes JPS, and Lago JHG

Subjects
Animals, Antiparasitic Agents chemical synthesis, Biological Products chemical synthesis, Biological Products pharmacology, Drug Discovery, Lignans chemical synthesis, Oxidative Stress drug effects, Phytotherapy, Reactive Oxygen Species metabolism, Structure-Activity Relationship, Trypanocidal Agents chemical synthesis, Trypanosoma cruzi metabolism, Antiparasitic Agents isolation & purification, Antiparasitic Agents pharmacology, Biological Products isolation & purification, Chagas Disease drug therapy, Lauraceae chemistry, Lignans isolation & purification, Lignans pharmacology, Plant Leaves chemistry, Trypanocidal Agents isolation & purification, Trypanocidal Agents pharmacology, Trypanosoma cruzi drug effects
Abstract

Neolignan licarin A (1) was isolated from leaves of Nectandra oppositifolia (Lauraceae) and displayed activity against trypomastigote forms of the etiologic agent of American trypanosomiasis, Trypanosoma cruzi. Aiming for the establishment of SAR, five different compounds (1a - 1e) were prepared and tested against T. cruzi. The 2-allyl derivative of licarin A (1d) exhibited higher activity against trypomastigotes of T. cruzi (IC 50  = 5.0 μM and SI = 9.0), while its heterocyclic derivative 1e displayed IC 50 of 10.5 μM and reduced toxicity against NCTC cells (SI > 19.0). However, these compounds presented limited oral bioavailability estimation (<85%, Papp <1.0 × 10 -6  cm/s) in parallel artificial membrane permeability assays (PAMPA) due to excessive lipophilicity. Based on these results, different simplified structures of licarin A were designed: vanillin (2), vanillyl alcohol (3), isoeugenol (4), and eugenol (5), as well as its corresponding methyl (a), acetyl (b), O-allyl (c), and C-allyl (d) analogues. Vanillin (2) and its acetyl derivative (2b) displayed expressive activity against intracellular amastigotes of T. cruzi with IC 50 values of 5.5 and 5.6 μM, respectively, and reduced toxicity against NCTC cells (CC 50  > 200 μM). In addition, these simplified analogues showed a better permeability profile (Papp > 1.0 × 10 -6  cm/s) on PAMPA models, resulting in improved drug-likeness. Vanillyl alcohol acetyl derivative (3b) and isoeugenol methyl derivative (4a) displayed activity against the extracellular forms of T. cruzi (trypomastigotes) with IC 50 values of 5.1 and 8.8 μM respectively. Based on these results, compounds with higher selectivity index against extracellular forms of the parasite (1d, 1e, 3d, and 4a) were selected for a mechanism of action study. After a short incubation period (1 h) all compounds increased the reactive oxygen species (ROS) levels of trypomastigotes, suggesting cellular oxidative stress. The ATP levels were increased after two hours of incubation, possibly involving a high energy expenditure of the parasite to control the homeostasis. Except for compound 4a, all compounds induced hyperpolarization of mitochondrial membrane potential, demonstrating a mitochondrial imbalance. Considering the unique mitochondria apparatus of T. cruzi and the lethal alterations induced by structurally based on licarin A, these compounds are interesting hits for future drug discovery studies in Chagas disease.

Published
2020
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7. Neolignans from Nectandra megapotamica (Lauraceae) Display in vitro Cytotoxic Activity and Induce Apoptosis in Leukemia Cells.

Author

Ponci V, Figueiredo CR, Massaoka MH, de Farias CF, Matsuo AL, Sartorelli P, and Lago JH

Subjects
Animals, Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic isolation & purification, Apoptosis drug effects, Brazil, Cell Membrane drug effects, Cell Membrane ultrastructure, Cell Survival drug effects, Cytotoxins chemistry, Cytotoxins isolation & purification, DNA Fragmentation drug effects, HL-60 Cells, HeLa Cells, Humans, Inhibitory Concentration 50, Lignans chemistry, Lignans isolation & purification, MCF-7 Cells, Melanoma, Experimental, Mice, Organ Specificity, Phosphatidylserines chemistry, Phosphatidylserines metabolism, Plant Extracts chemistry, Plants, Medicinal, Poly(ADP-ribose) Polymerases chemistry, Poly(ADP-ribose) Polymerases metabolism, Proteolysis, Structure-Activity Relationship, Antineoplastic Agents, Phytogenic pharmacology, Cytotoxins pharmacology, Lauraceae chemistry, Lignans pharmacology, Plant Leaves chemistry
Abstract

Nectandra megapotamica (Spreng.) Mez. (Lauraceae) is a well-known Brazilian medicinal plant that has been used in folk medicine to treat several diseases. In continuation of our ongoing efforts to discover new bioactive natural products from the Brazilian flora, this study describes the identification of cytotoxic compounds from the MeOH extract of N. megapotamica (Lauraceae) leaves using bioactivity-guided fractionation. This approach resulted in the isolation and characterization of eight tetrahydrofuran neolignans: calopeptin (1), machilin-G (2), machilin-I (3), aristolignin (4), nectandrin A (5), veraguensin (6), ganschisandrin (7), and galgravin (8). Different assays were conducted to evaluate their cytotoxic activities and to determine the possible mechanism(s) related to the activity displayed against human leukemia cells. The most active compounds 4, 5 and 8 gave IC50 values of 14.2 ± 0.7, 16.9 ± 0.8 and 16.5 ± 0.8 µg/mL, respectively, against human leukemia (HL-60) tumor cells. Moreover, these compounds induced specific apoptotic hallmarks, such as plasma membrane bleb formation, nuclear DNA condensation, specific chromatin fragmentation, phosphatidyl-serine exposure on the external leaflet of the plasma membrane, cleavage of PARP as well as mitochondrial damage, which as a whole could be related to the intrinsic apoptotic pathway.

Published
2015
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