43 results on '"Sousa, EHS"'
Search Results
2. Pharmacological evaluation of a new nanoformulation in the erectile tissue of rabbits and humans.
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Paz IA, Silva Filho PM, Leitão Junior AS, Pessoa TO, Santiago RO, Oliveira NO, Longhinotti E, Sousa EHS, Lopes LGF, Santos CF, Fonteles MC, and Nascimento NRF
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- Male, Rabbits, Animals, Humans, Penis drug effects, Nitric Oxide metabolism, Nitroprusside pharmacology, Phosphodiesterase 5 Inhibitors pharmacology, Erectile Dysfunction drug therapy, Silicon Dioxide chemistry, Tadalafil pharmacology, Tadalafil administration & dosage, Nanoparticles chemistry, Penile Erection drug effects
- Abstract
The failure of achieving a penile erection for satisfactory sexual intercourse is known as erectile dysfunction (ED). The primary mediator for penile erection is nitric oxide (NO). ED is often associated with endothelial/nitrergic dysfunction characterized by a reduction of the bioavailability of NO. Phosphodiesterase-5 inhibitors (PDE-5Is) clinical efficacy in the treatment of ED depends on the integrity of the NO-sGC-PKG pathway. In the present study, we probed the effect of sodium nitroprusside incorporated into mesoporous silica nanoparticles (MPSi-NP), which traps cyanide and slowly releases NO. MPSi-NP induced a maximal relaxation of 92.8 ± 5.2% in rabbit corpora cavernosa (RbCC), blunted by a soluble guanylate cyclase (sGC) inhibitor and blockers of calcium-dependent potassium channels. MPSi-NP abolished spontaneous contractions of human corpora cavernosa (HCC) strips. In addition, MPSi-NP induced maximal relaxation of phenylephrine precontracted HCC by 118.6 ± 3.6%, and in comparison, tadalafil induced a maximal relaxation of HCC by 98.3 ± 1.2%. Similarly, the sGC inhibitor blocked the MPSi-NP relaxation. MPSi-NP potentiated the relaxation induced by tadalafil. MPSi-NP increased cGMP levels in HCC strips by 2.6-fold and increased by 3.5-fold the phosphorylation level of the VASP protein, which is a downstream target to PKG. MPSi-NP effectively relaxes RbCC and HCC by activating the sGC-PKG pathway and potentiates the tadalafil response. MPSi-NP could be helpful in conditions where nitric oxide availability is decreased. A topical gel formulation of MPSi-NP could be used as a rescue therapy to treat true non-responders of PDE5Is drugs., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:Nilberto Robson Falcao do Nascimento reports financial support was provided by UNIVERSIDADE ESTADUAL DO CEARÁ. Luiz Gonzaga de Franca Lopes reports financial support was provided by Federal University of Ceara. Elisane Longhinotti reports financial support was provided by Federal University of Ceara. Eduardo Henrique Silva de Sousa reports financial support was provided by Federal University of Ceara. Elisane Longhinotti has patent #BR 102021018060-9 A(2) pending to none. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)
- Published
- 2024
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3. Ellman's Assay on the Surface: Thiol Quantification of Human Cofilin-1 Protein through Surface Plasmon Resonance.
- Author
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Souza LHC, Monteiro RGF, Guimarães WG, Gondim ACS, Sousa EHS, and Diógenes ICN
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- Humans, Dithionitrobenzoic Acid chemistry, Surface Properties, Cysteine chemistry, Cysteine analysis, Surface Plasmon Resonance methods, Sulfhydryl Compounds chemistry, Sulfhydryl Compounds analysis, Cofilin 1 chemistry, Cofilin 1 metabolism
- Abstract
Oxidative stress on cysteine (Cys)-containing proteins has been associated with physiological disorders, as suggested for the human cofilin-1 (CFL-1) protein, in which the oxidized residues are likely implicated in the aggregation process of α-synuclein, leading to severe neuronal injuries. Considering the relevance of the oxidation state of cysteine, quantification of thiols may offer a guide for the development of effective therapies. This work presents, for the very first time, thiol quantification within CFL-1 in solution and on the surface following classic and adapted versions of Ellman's assay. The 1:1 stoichiometric Ellman's reaction occurs between 5,5'-dithio-bis(2-nitrobenzoic acid) (DTNB), and the free thiol of the cysteine residue, producing two 2-nitro-5-thiobenzoate (TNB
2- ) ions, one of which is released into the medium. While in solution, the thiol concentration was determined by the absorbance of the released TNB2- , on the surface, the mass of the attached TNB2- ion to the protein allowed the quantification by means of the multiparametric surface plasmon resonance (MP-SPR) technique. The SPR angle change after the interaction of DTNB with immobilized CFL-1 gave a surface coverage of 26.5 pmol cm-2 for the TNB2- ions (ΓTNB2- ). The ratio of this value to the surface coverage of CFL-1, ΓCFL-1 = 6.5 ± 0.6 pmol cm-2 (also determined by MP-SPR), gave 4.1 as expected for this protein, i.e., CFL-1 contains four Cys residues in its native form (reduced state). A control experiment with adsorbed oxidized protein showed no SPR angle change, thus proving the reliability of adapting Ellman's assay to the surface using the MP-SPR technique. The results presented in this work provide evidence of the heterogenization of Ellman's assay, offering a novel perspective for studying thiol-containing species within proteins. This may be particularly useful to ensure further studies on drug-like molecules that can be carried out with validated oxidized or reduced CFL-1 or other analogous systems.- Published
- 2024
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4. Minimal Functionalization of Ruthenium Compounds with Enhanced Photoreactivity against Hard-to-Treat Cancer Cells and Resistant Bacteria.
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Oliveira GFS, Gouveia FS Jr, Andrade AL, de Vasconcelos MA, Teixeira EH, Palmeira-Mello MV, Batista AA, Lopes LGF, de Carvalho IMM, and Sousa EHS
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- Humans, Molecular Structure, Microbial Sensitivity Tests, Drug Screening Assays, Antitumor, Ruthenium Compounds pharmacology, Ruthenium Compounds chemistry, Coordination Complexes pharmacology, Coordination Complexes chemistry, Coordination Complexes chemical synthesis, Cell Line, Tumor, Photosensitizing Agents pharmacology, Photosensitizing Agents chemistry, Photosensitizing Agents chemical synthesis, Ruthenium chemistry, Ruthenium pharmacology, Cell Proliferation drug effects, Drug Resistance, Bacterial drug effects, Photochemical Processes, Cell Survival drug effects, Photochemotherapy, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents chemical synthesis, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents chemical synthesis
- Abstract
Metallocompounds have emerged as promising new anticancer agents, which can also exhibit properties to be used in photodynamic therapy. Here, we prepared two ruthenium-based compounds with a 2,2'-bipyridine ligand conjugated to an anthracenyl moiety. These compounds coded GRBA and GRPA contain 2,2'-bipyridine or 1,10-phenathroline as auxiliary ligands, respectively, which provide quite a distinct behavior. Notably, compound GRPA exhibited remarkably high photoproduction of singlet oxygen even in water (ϕ
Δ = 0.96), almost twice that of GRBA (ϕΔ = 0.52). On the other hand, this latter produced twice more superoxide and hydroxyl radical species than GRPA , which may be due to the modulation of their excited state. Interestingly, GRPA exhibited a modest binding to DNA ( Kb = 4.51 × 104 ), while GRBA did not show a measurable interaction only noticed by circular dichroism measurements. Studies with bacteria showed a great antimicrobial effect, including a synergistic effect in combination with commercial antibiotics. Besides that, GRBA showed very low or no cytotoxicity against four mammalian cells, including a hard-to-treat MDA-MB-231, triple-negative human breast cancer. Potent activities were measured for GRBA upon blue light irradiation, where IC50 of 43 and 13 nmol L-1 were seen against hard-to-treat triple-negative human breast cancer (MDA-MB-231) and ovarian cancer cells (A2780), respectively. These promising results are an interesting case of a simple modification with expressive enhancement of biological activity that deserves further biological studies.- Published
- 2024
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5. Anti-bacterial, anti-biofilm and synergistic effects of phenazine-based ruthenium(II) complexes.
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Martins PHR, Romo AIB, Gouveia FS Jr, Paz IA, Nascimento NRF, Andrade AL, Rodríguez-López J, de Vasconcelos MA, Teixeira EH, Moraes CAF, Lopes LGF, and Sousa EHS
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- Drug Synergism, Staphylococcus aureus drug effects, Phenazines chemistry, Phenazines pharmacology, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents chemical synthesis, Ruthenium chemistry, Ruthenium pharmacology, Biofilms drug effects, Coordination Complexes chemistry, Coordination Complexes pharmacology, Coordination Complexes chemical synthesis, Microbial Sensitivity Tests
- Abstract
Antimicrobial resistance has become a global threat to human health, which is coupled with the lack of novel drugs. Metallocompounds have emerged as promising diverse scaffolds for the development of new antibiotics. Herein, we prepared some metal compounds mainly focusing on cis -[Ru(bpy)(dppz)(SO
3 )(NO)](PF6 ) (PR02, bpy = 2,2'-bipyridine, dppz = dipyrido[3,2- a :2',3'- c ]phenazine), in which phenazinic and nitric oxide ligands along with sulfite conferred some key properties. This compound exhibited a redox potential for bound NO+/0 of -0.252 V ( vs. Ag|AgCl) and a high pH for nitrosyl-nitro conversion of 9.16, making the nitrosyl ligand the major species. These compounds were still able to bind to DNA structures. Interestingly, reduced glutathione (GSH) was unable to promote significant NO/HNO release, an uncommon feature of many similar systems. However, this reducing agent was essential to generate superoxide radicals. Antimicrobial studies were carried out using six bacterial strains, where none or very low activity was observed for Gram-negative bacteria. However, PR02 and PR ( cis -[Ru(bpy)(dppz)Cl2 ]) showed high antibacterial activity in some Gram-positive strains (MBC for S. aureus up to 4.9 μmol L-1 ), where the activity of PR02 was similar to or at least 4-fold better than that of PR. Besides, PR02 showed capacity to inhibit bacterial biofilm formation, a major health issue leading to bacterial tolerance to antibiotics. Interestingly, we also showed that PR02 can function in synergism with the known antibiotic ampicillin, improving their action up to 4-fold even against resistant strains. Altogether, these results showed that PR02 is a promising antimicrobial nitrosyl ruthenium compound combining features beyond its killing action, which deserves further biological studies.- Published
- 2024
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6. Structures of biological heme-based sensors of oxygen.
- Author
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Gilles-Gonzalez MA and Sousa EHS
- Subjects
- Oxygen chemistry, Bacterial Proteins chemistry, Heme chemistry, Hemeproteins chemistry
- Abstract
Since their initial discovery some 30 years ago, heme-based O
2 sensors have been extensively studied. Among many other lessons, we have learned that they have adapted a wide variety of folds to bind heme for O2 sensing, and they can couple those sensory domains to transducer domains with many different activities. There is no question that we have learned a great deal about those systems by solving X-ray structures of the truncated pieces of larger multi-domain proteins. All of the studies have, for example, hinted at the importance of protein residues, which were further investigated, usually by site-directed mutagenesis of the full-length proteins together with physico-chemical measurements and enzymatic studies. The biochemistry has suggested that the sensing functions of heme-based O2 sensors involve not only the entire proteins but also, and quite often, their associated regulatory partners and targets. Here we critically examine the state of knowledge for some well-studied sensors and discuss outstanding questions regarding their structures. For the near future, we may foresee many large complexes with sensor proteins being solved by cryo-EM, to enhance our understanding of their mechanisms., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)- Published
- 2023
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7. New nitrosyl ruthenium complexes with combined activities for multiple cardiovascular disorders.
- Author
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Gouveia Júnior FS, Silveira JAM, Holanda TM, Marinho AD, Ridnour LA, Wink DA, de Siqueira RJB, Monteiro HSA, Sousa EHS, and Lopes LGF
- Subjects
- Animals, Rats, Nitric Oxide chemistry, Nitrogen Oxides chemistry, Sulfhydryl Compounds chemistry, Cardiovascular Diseases, Coordination Complexes, Ruthenium chemistry
- Abstract
Nitrosyl ruthenium complexes are promising platforms for nitric oxide (NO) and nitroxyl (HNO) release, which exert their therapeutic application. In this context, we developed two polypyridinic compounds with the general formula cis -[Ru(NO)(bpy)
2 (L)]n + , where L is an imidazole derivative. These species were characterized by spectroscopic and electrochemical techniques, including XANES/EXAFS experiments, and further supported by DFT calculations. Interestingly, assays using selective probes evidenced that both complexes can release HNO on reaction with thiols. This finding was biologically validated by HIF-1α detection. The latter protein is related to angiogenesis and inflammation processes under hypoxic conditions, which is selectively destabilized by nitroxyl. These metal complexes also presented vasodilating properties using isolated rat aorta rings and demonstrated antioxidant properties in free radical scavenging experiments. Based on these results, the new nitrosyl ruthenium compounds showed promising characteristics as potential therapeutic agents for the treatment of cardiovascular conditions such as atherosclerosis, deserving further investigation.- Published
- 2023
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8. Editorial: Metalloproteins as sensors of gaseous small molecules-From bench to bed and beyond.
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Sousa EHS and Tian S
- Abstract
Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
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- 2023
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9. Nitroprusside─Expanding the Potential Use of an Old Drug Using Nanoparticles.
- Author
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da Silva Filho PM, Paz IA, Nascimento NRFD, Abreu DS, Lopes LGF, Sousa EHS, and Longhinotti E
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- Nitroprusside, Nitric Oxide, Drug Delivery Systems, Nitric Oxide Donors therapeutic use, Nanoparticles
- Abstract
For more than 70 years, sodium nitroprusside (SNP) has been used to treat severe hypertension in hospital emergency settings. During this time, a few other clinical uses have also emerged such as in the treatment of acute heart failure as well as improving mitral incompetence and in the intra- and perioperative management during heart surgery. This drug functions by releasing nitric oxide (NO), which modulates several biological processes with many potential therapeutic applications. However, this small molecule has a short lifetime, and it has been administered through the use of NO donor molecules such as SNP. On the other hand, SNP also has some setbacks such as the release of cyanide ions, high water solubility, and very fast NO release kinetics. Currently, there are many drug delivery strategies that can be applied to overcome many of these limitations, providing novel opportunities for the use of old drugs, including SNP. This Perspective describes some nitroprusside properties and highlights new potential therapeutic uses arising from the use of drug delivery systems, mainly silica-based nanoparticles. There is a series of great opportunities to further explore SNP in many medical issues as reviewed, which deserves a closer look by the scientific community.
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- 2023
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10. Reactivity of a nitrosyl ruthenium complex and its potential impact on the fate of DNA - An in vitro investigation.
- Author
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Martins PHR, Romo AIB, da Silva FON, Nascimento OR, Rodríguez-López J, Diógenes ICN, Lopes LGF, and Sousa EHS
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- Hydrogen Peroxide, Ruthenium Compounds chemistry, Nitric Oxide chemistry, DNA, Ruthenium chemistry, Coordination Complexes chemistry
- Abstract
The role of metal complexes on facing DNA has been a topic of major interest. However, metallonitrosyl compounds have been poorly investigated regarding their reactivities and interaction with DNA. A nitrosyl compound, cis-[Ru(bpy)
2 (SO3 )(NO)](PF6 )(A), showed a variety of promising biological activities catching our attention. Here, we carried out a series of studies involving the interaction and damage of DNA mediated by the metal complex A and its final product after NO release, cis-[Ru(bpy)2 (SO3 )(H2 O](B). The fate of DNA with these metal complexes was investigated upon light or chemical stimuli using electrophoresis, electronic absorption spectroscopy, circular dichroism, size-exclusion resin, mass spectrometry, electron spin resonance (ESR) and viscometry. Since many biological disorders involve the production of oxidizing species, it is important to evaluate the reactivity of these compounds under such conditions as well. Indeed, the metal complex B exhibited important reactivity with H2 O2 enabling DNA degradation, with detection of an unusual oxygenated intermediate. ESR spectroscopy detected mainly the DMPO-OOH adduct, which only emerges if H2 O2 and O2 are present together. This result indicated HOO• as a key radical likely involved in DNA damage as supported by agarose gel electrophoresis. Notably, the nitrosyl ruthenium complex did not show evidence of direct DNA damage. However, its aqua product should be carefully considered as potentially harmful to DNA deserving further in vivo studies to better address any genotoxicity., Competing Interests: Declaration of Competing Interest There are no conflicts to declare., (Copyright © 2022. Published by Elsevier Inc.)- Published
- 2023
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11. Measurement of O 2 Binding by Sensory Hemeproteins.
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Gilles-Gonzalez MA and Sousa EHS
- Subjects
- Ligands, Oxygen metabolism, Carbon Monoxide metabolism, Gases, Hemeproteins metabolism
- Abstract
The discovery of an increasing number of proteins that function in the detoxification and sensing of gaseous ligands has renewed interest in hemeproteins. It is critical to measure the affinities of these proteins for ligands like O
2 , CO, and NO, know with confidence when a protein is fully saturated with a specific ligand, and be able to estimate how well a ligand will compete against other ligands for a specific protein. Below we describe how to obtain an intact O2 -binding hemeprotein with a full complement of heme, how to evaluate the factors that can impact its affinity for O2 , and how to determine accurately the equilibrium and kinetic parameters Kd , kon , and koff for O2 binding., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)- Published
- 2023
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12. Synthesis and potential vasorelaxant effect of a novel ruthenium-based nitro complex.
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de Oliveira Neto J, Marinho MM, Silveira JAM, Rocha DG, Lima NCB, Gouveia Júnior FS, Lopes LGF, de Sousa EHS, Martins AMC, Marinho AD, Jorge RJB, and Monteiro HSA
- Subjects
- Animals, Chickens, Chorioallantoic Membrane metabolism, Heme chemistry, Humans, Imidazoles chemistry, Molecular Docking Simulation methods, Nitric Oxide metabolism, Oxygen chemistry, Protein Domains, Soluble Guanylyl Cyclase chemistry, Soluble Guanylyl Cyclase metabolism, Coordination Complexes chemistry, Nitric Oxide chemistry, Ruthenium chemistry, Vasodilator Agents chemistry, Vasodilator Agents pharmacology
- Abstract
This study aimed to investigate the synthesis and potential vasodilator effect of a novel ruthenium complex, cis-[Ru(bpy)
2 (2-MIM)(NO2 )]PF6 (bpy = 2,2'-bipyridine and 2-MIM = 2-methylimidazole) (FOR711A), containing an imidazole derivative via an in silico molecular docking model using β1 H-NOX (Heme-nitric oxide/oxygen binding) domain proteins of reduced and oxidized soluble guanylate cyclase (sGC). In addition, pharmacokinetic properties in the human organism were predicted through computational simulations and the potential for acute irritation of FOR711A was also investigated in vitro using the hen's egg chorioallantoic membrane (HET-CAM). FOR711A interacted with sites of the β1 H-NOX domain of reduced and oxidized sGC, demonstrating shorter bond distances to several residues and negative values of total energy. The predictive study revealed molar refractivity (RM): 127.65; Log Po/w = 1.29; topological polar surface area (TPSA): 86.26 Å2 ; molar mass (MM) = 541.55 g/mol; low solubility, high unsaturation index, high gastrointestinal absorption; toxicity class 4; failure to cross the blood-brain barrier and to react with cytochrome P450 (CYP) enzymes CYP1A2, CYP2C19, CYP2C9, CYP2D6 and CYP3A4. After the HET-CAM assay, the FOR711A complex was classified as non-irritant (N.I.) and its vasodilator effect was confirmed through greater evidence of blood vessels after the administration and ending of the observation period of 5 min. These results suggest that FOR711A presented a potential stimulator/activator effect of sGC via NO/sGC/cGMP. However, results indicate it needs a vehicle for oral administration., (Copyright © 2021 Elsevier Inc. All rights reserved.)- Published
- 2022
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13. The biofilm inhibition activity of a NO donor nanosilica with enhanced antibiotics action.
- Author
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da Silva Filho PM, Andrade AL, Lopes JBAC, Pinheiro AA, de Vasconcelos MA, Fonseca SGDC, Lopes LGF, Sousa EHS, Teixeira EH, and Longhinotti E
- Subjects
- Anti-Bacterial Agents pharmacology, Biofilms, Humans, Microbial Sensitivity Tests, Nitric Oxide Donors pharmacology, Renal Dialysis, Staphylococcus aureus, Methicillin-Resistant Staphylococcus aureus, Staphylococcal Infections
- Abstract
Nitric oxide (NO) has emerged as a promising antibacterial agent, where NO donor compounds have been explored. Here, we investigated the role of a silica nanoparticle containing nitroprusside (MPSi-NP) as a NO donor agent against methicillin-sensitive (ATCC 25,923 and ATCC 12228) and methicillin-resistant (ATCC 700,698 and ATCC 35984) Staphylococcus strains. Biofilm inhibition was studied along with antibiotic activity in combination with standard antibiotics (ampicillin and tetracycline). MPSi-NP exhibited thermal release of 63% of NO within 24 h, while free nitroprusside released only 18% during a dialysis assay, indicating an assisted release of NO mediated by the nanoparticles. This nanomaterial showed only a moderate activity in blocking biofilm production, but exhibited a significant decrease in the number of viable bacterial cells (over 600-fold for Staphylococcus aureus ATCC 700,698 and Staphylococcus epidermidis ATCC 35984). Remarkably, even using MPSi-NP at concentrations below any antibacterial action, its combination with ampicillin promoted a significant decrease in MIC for resistant strains of S. aureus ATCC 700,698 (2-fold) and S. epidermidis ATCC 35,984 (4-fold). A carbopol-based gel formulation with MPSi-NP (0.5% w/w) was prepared and showed a zone of inhibition of 7.7 ± 0.6 mm for S. epidermidis ATCC 35984. Topical use of MPSi-NP in combination with antibiotics might be a manageable strategy to prevent and eventually treat complicated resistant bacterial infections., (Copyright © 2021. Published by Elsevier B.V.)
- Published
- 2021
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14. Single and mixture toxicity evaluation of three phenolic compounds to the terrestrial ecosystem.
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Oliveira KMG, Carvalho EHS, Santos Filho RD, Sivek TW, Thá EL, Souza IR, Coelho LDS, Pimenta MEB, Oliveira GAR, Oliveira DP, Cestari MM, and Leme DM
- Subjects
- Animals, Benzhydryl Compounds analysis, Benzhydryl Compounds toxicity, Ecosystem, Environmental Monitoring, Fishes, Phenols analysis, Phenols toxicity, Endocrine Disruptors analysis, Oligochaeta, Water Pollutants, Chemical analysis
- Abstract
Endocrine-disrupting chemicals (EDCs) are primarily studied regarding endocrine-mediated effects in mammals and fish. However, EDCs can cause toxicity by mechanisms outside the endocrine system, and, as they are released continuously into soils, they may pose risks to terrestrial organisms. In this work, the plant Allium cepa and the earthworm Eisenia foetida were used as test systems to evaluate the toxicity and cyto-/geno-toxicity of three environmental phenols known as EDCs (Bisphenol A - BPA, Octylphenol - OP, Nonylphenol - NP). The tested phenols were evaluated in environmentally relevant concentrations (μg/L) and in single forms and mixture. BPA, OP, and NP did not inhibit the seed germination and root development in A. cepa in their single forms and mixture. However, all single forms of the tested phenols caused cellular and DNA damages in A. cepa, and although these effects persist in the mixtures, the effects were verified at lower levels. These phenols caused acute toxicity to E. foetida after 48 h of exposure and at both conditions evaluated (single forms and mixture); however, unlike A. cepa, in earthworms, mixtures and single forms presented the same level of effects, indicating that interspecies physiological different might influence the mixture toxicity. In summary, our results suggest that BPA, OP, and NP are toxicants to earthworm and cyto-/geno-toxicants to monocotyledonous plants at low concentrations. However, interaction among these phenols reduces the magnitude of their individual effects (antagonistic effect) in the plant test system. Therefore, this study draws attention to the need to raise knowledge about the ecotoxicity of phenolic compounds to help predict their ecological risks and protect non-target terrestrial species., (Copyright © 2021 Elsevier Ltd. All rights reserved.)
- Published
- 2021
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15. Anti-asthmatic effect of nitric oxide metallo-donor FOR811A [cis-[Ru(bpy)2(2-MIM)(NO)](PF6)3] in the respiratory mechanics of Swiss mice.
- Author
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Costa PPC, Waller SB, Dos Santos GR, Gondim FL, Serra DS, Cavalcante FSÁ, Gouveia Júnior FS, de Paula Júnior VF, Sousa EHS, Lopes LGF, Ribeiro WLC, and Monteiro HSA
- Subjects
- Animals, Female, Mice, Anti-Asthmatic Agents chemistry, Anti-Asthmatic Agents pharmacology, Asthma drug therapy, Asthma physiopathology, Nitric Oxide Donors chemistry, Nitric Oxide Donors pharmacology, Organometallic Compounds chemistry, Organometallic Compounds pharmacology, Respiratory Mechanics drug effects, Ruthenium chemistry, Ruthenium pharmacology
- Abstract
We aimed at evaluating the anti-asthmatic effect of cis-[Ru(bpy)2(2-MIM)(NO)](PF6)3 (FOR811A), a nitrosyl-ruthenium compound, in a murine model of allergic asthma. The anti-asthmatic effects were analyzed by measuring the mechanical lung and morphometrical parameters in female Swiss mice allocated in the following groups: untreated control (Ctl+Sal) and control treated with FOR811A (Ctl+FOR), along asthmatic groups untreated (Ast+Sal) and treated with FOR811A (Ast+FOR). The drug-protein interaction was evaluated by in-silico assay using molecular docking. The results showed that the use of FOR811A in experimental asthma (Ast+FOR) decreased the pressure-volume curve, hysteresis, tissue elastance, tissue resistance, and airway resistance, similar to the control groups (Ctl+Sal; Ctl+FOR). However, it differed from the untreated asthmatic group (Ast+Sal, p<0.05), indicating that FOR811A corrected the lung parenchyma and relaxed the smooth muscles of the bronchi. Similar to control groups (Ctl+Sal; Ctl+FOR), FOR811A increased the inspiratory capacity and static compliance in asthmatic animals (Ast+Sal, p<0.05), showing that this metallodrug improved the capacity of inspiration during asthma. The morphometric parameters showed that FOR811A decreased the alveolar collapse and kept the bronchoconstriction during asthma. Beyond that, the molecular docking using FOR811A showed a strong interaction in the distal portion of the heme group of the soluble guanylate cyclase, particularly with cysteine residue (Cys141). In summary, FOR811A relaxed bronchial smooth muscles and improved respiratory mechanics during asthma, providing a protective effect and promising use for the development of an anti-asthmatic drug., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2021
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16. Thymol-Loaded Biogenic Silica Nanoparticles in an Aquatic Environment: The Impact of Particle Aggregation on Ecotoxicity.
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Pereira IB, Carvalho EHS, Rodrigues LB, Mattos BD, Magalhães WLE, Leme DM, Krawczyk-Santos AP, Taveira SF, and de Oliveira GAR
- Subjects
- Animals, Ecosystem, Silicon Dioxide toxicity, Thymol toxicity, Zebrafish, Nanoparticles toxicity, Water Pollutants, Chemical toxicity
- Abstract
Thymol, a monoterpene phenol, is used as a natural biocide. To circumvent its chemical instability, we propose use of thymol-loaded biogenic silica nanoparticles (BSiO
2 #THY NPs); however, the toxicity of this system for aquatic organisms is unknown. Thus, the present study aimed to evaluate the toxicogenetic effects induced by thymol, BSiO2 NP, and BSiO2 #THY on Artemia salina and zebrafish (Danio rerio) early life stages. We also investigated the impact of BSiO2 aggregation in different exposure media (saline and freshwater). Based on the median lethal concentration at 48 h (LC5048h ), BSiO2 #THY (LC5048h = 1.06 mg/L) presented similar toxic potential as thymol (LC5048h = 1.03 mg/L) for A. salina, showing that BSiO2 had no influence on BSiO2 #THY toxicity. Because BSiO2 aggregated and sedimented faster in A. salina aqueous medium than in the other medium, this NP had lower interaction with this microcrustacean. Thus, BSiO2 #THY toxicity for A. salina is probably due to the intrinsic toxicity of thymol. For zebrafish early life stages, BSiO2 #THY (LC5096h = 13.13 mg/L) was more toxic than free thymol (LC5096h = 25.60 mg/L); however, BSiO2 NP has no toxicity for zebrafish early life stages. The lower aggregation of BSiO2 in the freshwater medium compared to the saline medium may have enhanced thymol's availability for this aquatic organism. Also, BSiO2 #THY significantly induced sublethal effects as thymol, and both were genotoxic for zebrafish. In conclusion, although BSiO2 #THY still needs improvements to ensure its safety for freshwater ecosystems, BSiO2 NP seems to be a safe nanocarrier for agriculture. Environ Toxicol Chem 2021;40:333-341. © 2020 SETAC., (© 2020 SETAC.)- Published
- 2021
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17. Electrochemical, mechanistic, and DFT studies of amine derived diphosphines containing Ru(II)-cymene complexes with potent in vitro cytotoxic activity against HeLa and triple-negative breast cancer cells MDA-MB-231.
- Author
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da Silva JP, Fuganti O, Kramer MG, Facchin G, Aquino LEN, Ellena J, Back DF, Gondim ACS, Sousa EHS, Lopes LGF, Machado S, Guimarães IDL, Wohnrath K, and de Araujo MP
- Subjects
- Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Density Functional Theory, Electrochemistry, HeLa Cells, Humans, Amines chemistry, Coordination Complexes chemistry, Coordination Complexes pharmacology, Cymenes chemistry, Phosphines chemistry, Ruthenium chemistry, Triple Negative Breast Neoplasms pathology
- Abstract
Complexes with general formula [RuCl(η6-p-cymene)(P-NR-P)]X (R = CH2Py (Py = pyridine) - [1a]+, CH2Ph (Ph = phenyl) - [1b]+, Ph - [1c] and p-tol (p-tol = p-tolyl) - [1d]+; X = PF6- or BF4-) were evaluated as cytotoxic agents against two cancer cell lines (HeLa and MDA-MB-231). All metal complexes are active in the range of concentrations tested (up to 100 μmol L-1). The IC50 (μmol L-1) values for the metal complexes are lower than that found for cisplatin. The activities are up to 6- and 15-fold higher than cisplatin for HeLa and MDA-MB-231 cancer cell lines, respectively. Studies of DNA binding and DNA cleavage were performed. DNA binding studies revealed a modest hypochromic shift in the metal complexes electronic spectra, indicating a weak interaction with Kb values in the range of 1.7 × 103-1.6 × 104. Although the cleavage tests revealed that in the dark DNA is not a biological target for these metal complexes, upon blue light irradiation they are activated causing DNA cleavage. Electrochemical studies showed the presence of two independent redox processes, one attributed to the oxidation process of Ru2+ → Ru3+ (EC process) and the other one to the reduction of Ru2+ → Ru1+, which is further reduced to Ru0 (ECE mechanism). In both processes, coupled chemical reactions were observed. DFT calculations were performed to support the electrochemical/chemical behavior of the complexes. The reactivity of complex [1b]BF4 with CH3CN was evaluated and two complexes were isolated [2b]BF4 and [3b]BF4. The complex mer-[RuCl(CH3CN)3(P-NCH2Ph-P)]BF4 ([2b]BF4) was isolated after refluxing the precursor [1b]BF4 in CH3CN. Isomerization of [2b]BF4 in CH3CN resulted in the formation of fac-[RuCl(CH3CN)3(P-NCH2Ph-P)]BF4. An attempt to isolate the fac-isomer by adding diethyl ether was unsuccessful, and the complex [3b]BF4 was observed as the major component. The complex [Ru2(μ-Cl3)(CH3CN)2(P-NCH2Ph-P)2]BF4 ([3b]BF4) proved to be very stable and can be obtained from both the mer- and the fac-isomers. The molecular structures of [1b]BF4 and [3b]BF4 were solved by single-crystal X-ray diffraction.
- Published
- 2020
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18. A bioinorganic chemistry perspective on the roles of metals as drugs and targets against Mycobacterium tuberculosis - a journey of opportunities.
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Lopes LGF, Carvalho EM, and Sousa EHS
- Subjects
- Anti-Bacterial Agents chemistry, Chemistry, Bioinorganic, Metals chemistry, Anti-Bacterial Agents pharmacology, Metals pharmacology, Mycobacterium tuberculosis drug effects
- Abstract
Medicinal inorganic chemists have provided many strategies to tackle a myriad of diseases, pushing forward the frontiers of pharmacology. As an example, the fight against tuberculosis (TB), an infectious bacterial disease, has led to the development of metal-based compounds as potential drugs. This disease remains a current health issue causing over 1.4 million of deaths per year. The emergence of multi- (MDR) and extensively-drug resistant (XDR) Mycobacterium tuberculosis (Mtb) strains along with a long dormancy process, place major challenges in developing new therapeutic compounds. Isoniazid is a front-line prodrug used against TB with appealing features for coordination chemists, which have been explored in a series of cases reported here. An isoniazid iron-based compound, called IQG-607, has caught our attention, whose in vitro and in vivo studies are advanced and thoroughly discussed, along with other metal complexes. Isoniazid is inactive against dormant Mtb, a hard to eliminate state of this bacillus, found in one-fourth of the world's population and directly implicated in the lengthy treatment of TB (ca. 6 months). Thus, our understanding of this phenomenon may lead to a rational design of new drugs. Along these lines, we describe how metals as targets can cross paths with metals used as selective therapeutics, where we mainly review heme-based sensors, DevS and DosT, as a key system in the Mtb dormancy process and a current drug target. Overall, we report new opportunities for bioinorganic chemists to tackle this longstanding and current threat.
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- 2020
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19. Pentacyanoferrate(II) complex of pyridine-4- and pyrazine-2-hydroxamic acid as source of HNO: investigation of anti-tubercular and vasodilation activities.
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Carvalho EM, de Freitas Paulo T, Saquet AS, Abbadi BL, Macchi FS, Bizarro CV, de Morais Campos R, Ferreira TLA, do Nascimento NRF, Lopes LGF, Chauvin R, Sousa EHS, and Bernardes-Génisson V
- Subjects
- Amidohydrolases metabolism, Antitubercular Agents pharmacology, Coordination Complexes pharmacology, Drug Discovery, Electron Spin Resonance Spectroscopy, Hydrogen Peroxide chemistry, Ligands, Nitrogen Oxides metabolism, Oxidation-Reduction, Pyrazinamide analogs & derivatives, Pyrazinamide chemistry, Vasodilation, Antitubercular Agents chemical synthesis, Coordination Complexes chemical synthesis, Ferrous Compounds chemical synthesis, Hydroxamic Acids chemistry, Iron chemistry, Mycobacterium tuberculosis drug effects, Nitrogen Oxides chemistry
- Abstract
A pharmacophore design approach, based on the coordination chemistry of an intimate molecular hybrid of active metabolites of pro-drugs, known to release active species upon enzymatic oxidative activation, is devised. This is exemplified by combining two anti-mycobacterial drugs: pyrazinamide (first line) and delamanid (third line) whose active metabolites are pyrazinoic acid (PyzCOOH) and likely nitroxyl (HNO (or NO
. )), respectively. Aiming to generate those active species, a hybrid compound was envisaged by coordination of pyrazine-2-hydroxamic acid (PyzCONHOH) with a Na3 [FeII (CN)5 ] moiety. The corresponding pentacyanoferrate(II) complex Na4 [FeII (CN)5 (PyzCONHO- )] was synthesized and characterized by several spectroscopic techniques, cyclic voltammetry, and DFT calculations. Chemical oxidation of this complex with H2 O2 was shown to induce the release of the metabolite PyzCOOH, without the need of the Mycobacterium tuberculosis (Mtb) pyrazinamidase enzyme (PncA). Control experiments show that both H2 O2 - and N-coordinated pyrazine FeII species are required, ruling out a direct hydrolysis of the hydroxamic acid or an alternative oxidative route through chelation of a metal center by a hydroxamic group. The release of HNO was observed using EPR spectroscopy in the presence of a spin trapping agent. The devised iron metal complex of pyrazine-2-hydroxamic acid was found inactive against an actively growing/non-resistant Mtb strain; however, it showed a strong dose-dependent and reversible vasodilatory activity with mostly lesser toxic effects than the reference drug sodium nitroprussiate, unveiling thus a potential indication for acute or chronic cardiovascular pathology. This is a priori a further indirect evidence of HNO release from this metal complex, standing as a possible pharmacophore model for an alternative vasodilator drug.- Published
- 2020
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20. A divergent mode of activation of a nitrosyl iron complex with unusual antiangiogenic activity.
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Carvalho EM, Ridnour LA, Júnior FSG, Cabral PHB, do Nascimento NRF, Wink DA, Franco DW, de Medeiros MJC, de Lima Pontes D, Longhinotti E, de Freitas Paulo T, Bernardes-Génisson V, Chauvin R, Sousa EHS, and Lopes LGF
- Subjects
- Angiogenesis Inhibitors chemical synthesis, Angiogenesis Inhibitors radiation effects, Animals, Cell Line, Tumor, Coordination Complexes chemical synthesis, Coordination Complexes radiation effects, Glutathione chemistry, Humans, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Iron chemistry, Iron radiation effects, Mice, Nitric Oxide metabolism, Nitric Oxide Donors chemical synthesis, Nitric Oxide Donors radiation effects, Nitrogen Oxides metabolism, Rats, Temperature, Ultraviolet Rays, Vasodilator Agents chemical synthesis, Vasodilator Agents pharmacology, Vasodilator Agents radiation effects, Angiogenesis Inhibitors pharmacology, Coordination Complexes pharmacology, Nitric Oxide Donors pharmacology
- Abstract
Nitric oxide (NO) and nitroxyl (HNO) have gained broad attention due to their roles in several physiological and pathophysiological processes. Remarkably, these sibling species can exhibit opposing effects including the promotion of angiogenic activity by NO compared to HNO, which blocks neovascularization. While many NO donors have been developed over the years, interest in HNO has led to the recent emergence of new donors. However, in both cases there is an expressive lack of iron-based compounds. Herein, we explored the novel chemical reactivity and stability of the trans-[Fe(cyclam)(NO)Cl]Cl
2 (cyclam = 1,4,8,11-tetraazacyclotetradecane) complex. Interestingly, the half-life (t1/2 ) for NO release was 1.8 min upon light irradiation, vs 5.4 h upon thermal activation at 37 °C. Importantly, spectroscopic evidence supported the generation of HNO rather than NO induced by glutathione. Moreover, we observed significant inhibition of NO donor- or hypoxia-induced HIF-1α (hypoxia-inducible factor 1α) accumulation in breast cancer cells, as well as reduced vascular tube formation by endothelial cells pretreated with the trans-[Fe(cyclam)(NO)Cl]Cl2 complex. Together, these studies provide the first example of an iron-nitrosyl complex with anti-angiogenic activity as well as the potential dual activity of this compound as a NO/HNO releasing agent, which warrants further pharmacological investigation., Competing Interests: Declaration of competing interest The authors declare no competing financial interest., (Copyright © 2020 Elsevier Inc. All rights reserved.)- Published
- 2020
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21. Potential therapeutic approaches for a sleeping pathogen: tuberculosis a case for bioinorganic chemistry.
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Sousa EHS, Diógenes ICN, Lopes LGF, and Moura JJG
- Subjects
- Animals, Chemistry, Bioinorganic, Humans, Molecular Structure, Tuberculosis microbiology, Antitubercular Agents pharmacology, Mycobacterium tuberculosis drug effects, Tuberculosis drug therapy
- Abstract
Mycobacterium tuberculosis (Mtb) has an old history as a human pathogen and still kills over one million people every year. One key feature of this bacterium is its dormancy: a phenomenon responsible for major changes in its metabolism and replication that have been associated with the need for a lengthy therapy for Mtb. This process is regulated by key heme-based sensors, particularly DosT and DevS (DosS), among other co-regulators, and also linked to nitrogen utilization (nitrate/nitrite) and stringent responses. In face of the current threat of tuberculosis, there is an urgent need to develop new therapeutic agents capable of targeting the dormant state, associated with the need for a lengthy therapy. Interestingly, many of those key proteins are indeed metallo-containing or metallo-dependent biomolecules, opening exciting bioinorganic opportunities. Here, we critically reviewed a series of small molecules targeting key proteins involved in these processes, including DosT/DevS/DevR, RegX3, MprA, MtrA, NarL, PknB, Rel, PPK, nitrate and nitrite reductases, GlnA1, aiming for new opportunities and alternative therapies. In the battle against Mycobacterium tuberculosis, new drug targets must be searched, in particular those involved in dormancy. A series of exciting cases for drug development involving metallo-containing or metallo-dependent biomolecules are reviewed, opening great opportunities for the bioinorganic chemistry community.
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- 2020
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22. Antihypertensive potential of cis-[Ru(bpy) 2 (ImN)(NO)] 3+ , a ruthenium-based nitric oxide donor.
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Costa PPC, Campos R, Cabral PHB, Gomes VM, Santos CF, Waller SB, de Sousa EHS, Lopes LGF, Fonteles MC, and do Nascimento NRF
- Subjects
- Animals, Blood Pressure drug effects, Heart Rate drug effects, Hypertension chemically induced, Male, NG-Nitroarginine Methyl Ester administration & dosage, Rats, Rats, Wistar, Antihypertensive Agents pharmacology, Hypertension drug therapy, Nitric Oxide Donors pharmacology, Organometallic Compounds pharmacology, Ruthenium pharmacology, Vasodilator Agents pharmacology
- Abstract
The aim of this study was to investigate the antihypertensive properties of cis-[Ru(bpy)
2 ImN(NO)]3+ (FOR0811) in normotensive and in Nω -nitro-L-arginine methyl ester (L-NAME)-induced hypertensive rats. Vasorelaxant effects were analyzed by performing concentration response curve to FOR0811 in rat aortic rings in the absence or presence of 1H-[1,2,4]-oxadiazolo-[4,3,-a]quinoxalin-1-one (ODQ), L-cysteine or hydroxocobalamin. Normotensive and L-NAME-hypertensive rats were treated with FOR0811 and the effects in blood pressure and heart rate variability in the frequency domain (HRV) were followed. FOR0811 induced relaxation in rat aortic rings. Neither endothelium removal nor L-cysteine altered the FOR0811 effects. However, the incubation with ODQ and hydroxocobalamin completely blunted FOR0811 effects. FOR0811 administered intravenously by bolus infusion (0.01-1 mg/bolus) or chronically by using subcutaneous implanted osmotic pumps significantly reduced the mean arterial blood pressure. The effect was long lasting and did not induce reflex tachycardia. FOR0811 prevented both LF and VLF increases in L-NAME hypertensive rats and has antihypertensive properties. This new ruthenium complex compound might be a promising nitric oxide donor to treat cardiovascular diseases., Competing Interests: Declaration of Competing Interest The authors have no conflict of interest to declare., (Copyright © 2020. Published by Elsevier Ltd.)- Published
- 2020
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23. An unusual bidentate methionine ruthenium(II) complex: photo-uncaging and antimicrobial activity.
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de Sousa AP, Gondim ACS, Sousa EHS, de Vasconcelos MA, Teixeira EH, Bezerra BP, Ayala AP, Martins PHR, Lopes LGF, and Holanda AKM
- Subjects
- Animals, Anti-Bacterial Agents chemical synthesis, Anti-Bacterial Agents chemistry, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, DNA drug effects, DNA Cleavage, Light, Male, Methionine chemistry, Microbial Sensitivity Tests, Photochemical Processes, Ruthenium chemistry, Salmon, Spermatozoa chemistry, Anti-Bacterial Agents pharmacology, Coordination Complexes pharmacology, Methionine pharmacology, Ruthenium pharmacology, Staphylococcus aureus drug effects, Staphylococcus epidermidis drug effects
- Abstract
The cis-[Ru(bpy)
2 (Met)](PF6 )2 complex, where Met = L-methionine and bpy = 2,2'-bipyridine, was prepared and fully characterized. This complex was subjected to blue and green light photolysis (453 and 505 nm, respectively) in aqueous solution, leading to the release of methionine and formation of the cis-[Ru(bpy)2 (H2 O)2 ]2+ ion. This latter photoproduct was shown to subsequently interact with DNA, while DNA photocleavage was noticed. In agreement with these reactivities, this compound exhibited an exciting antibacterial action, particularly against Gram-positive bacteria Staphylococcus aureus and Staphylococcus epidermidis, which was enhanced upon blue light irradiation. Altogether, these results showed that our strategy was successful in producing light-triggered DNA-binding agents with pharmacological potential and a likely blocking reagent for efficient peptide chemistry formation.- Published
- 2020
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24. Nitro-imidazole-based ruthenium complexes with antioxidant and anti-inflammatory activities.
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Sasahara GL, Gouveia Júnior FS, Rodrigues RO, Zampieri DS, Fonseca SGDC, Gonçalves RCR, Athaydes BR, Kitagawa RR, Santos FA, Sousa EHS, Nagao-Dias AT, and Lopes LGF
- Subjects
- A549 Cells, Animals, Anti-Bacterial Agents chemistry, Anti-Inflammatory Agents chemistry, Antineoplastic Agents chemistry, Antioxidants chemistry, Bacteria drug effects, Cell Proliferation, Coordination Complexes chemistry, Humans, Lipid Peroxidation, MCF-7 Cells, Mice, Molecular Structure, RAW 264.7 Cells, Superoxides metabolism, Anti-Bacterial Agents pharmacology, Anti-Inflammatory Agents pharmacology, Antineoplastic Agents pharmacology, Antioxidants pharmacology, Coordination Complexes pharmacology, Imidazoles chemistry, Ruthenium chemistry
- Abstract
Inflammation is a physiological process triggered in response to tissue damage, and involves events related to cell recruitment, cytokines release and reactive oxygen species (ROS) production. Failing to control the process duration lead to chronification and may be associated with the development of various pathologies, including autoimmune diseases and cancer. Considering the pharmacological potential of metal-based compounds, two new ruthenium complexes were synthesized: cis-[Ru(NO
2 )(bpy)2 (5NIM)]PF6 (1) and cis-[RuCl(bpy)2 (MTZ)]PF6 (2), where bpy = 2,2'-bipyridine, 5NIM = 5-nitroimidazole and MTZ = metronidazole. Both products were characterized by spectroscopic techniques, followed by Density Functional Theory (DFT) calculations in order to support experimental findings. Afterwards, their in vitro cytotoxic, antioxidant and anti-inflammatory activities were investigated. Compounds 1 and 2 presented expressive in vitro antioxidant activity, reducing lipid peroxidation and decreasing intracellular ROS levels with comparable effectiveness to the standard steroidal drug dexamethasone or α-tocopherol. These complexes showed no noticeable cytotoxicity on the tested cancer cell lines. Bactericidal assay against metronidazole-resistant Helicobacter pylori, a microorganism able to disrupt oxidative balance, unraveled compound 1 moderate activity over that strain. Besides this, it was able to inhibit interleukin-6 (IL-6) and tumor necrosis factor-α (TNF- α) production as well as interleukin-1β (IL-1β) and cyclooxygenase-2 (COX-2) expression in lipopolysaccharide (LPS)-stimulated RAW264.7 macrophages. This latter activity is remarkable, which has not been reported for other ruthenium-based complexes. Altogether, these results suggest cis-[Ru(NO2 )(bpy)2 (5NIM)]PF6 complex has potential pharmacological application as an anti-inflammatory agent that deserve further biological investigation., Competing Interests: Declaration of competing interest The authors have no conflicts of interest to declare., (Copyright © 2020 Elsevier Inc. All rights reserved.)- Published
- 2020
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25. Antimicrobial activity and antibiotic synergy of a biphosphinic ruthenium complex against clinically relevant bacteria.
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Andrade AL, de Vasconcelos MA, Arruda FVS, do Nascimento Neto LG, Carvalho JMDS, Gondim ACS, Lopes LGF, Sousa EHS, and Teixeira EH
- Subjects
- Microbial Sensitivity Tests, Anti-Bacterial Agents, Biofilms, Ruthenium, Staphylococcus aureus
- Abstract
The aim of this study was to investigate the antibacterial activity, antibiotic-associated synergy, and anti-biofilm activity of the ruthenium complex, cis -[RuCl
2 (dppb) (bqdi)]2+ (RuNN). RuNN exhibited antimicrobial activity against Gram-positive bacteria with minimum inhibitory concentration (MIC) values ranging from 15.6 to 62.5 µg ml-1 and minimum bactericidal concentration (MBC) values ranging from 62.5 to 125 µg ml-1 . A synergistic effect against Staphylococcus spp. was observed when RuNN was combined with ampicillin, and the range of associated fractional inhibitory concentration index (FICI) values was 0.187 to 0.312. A time-kill curve indicated the bactericidal activity of RuNN in the first 1-5 h. In general, RuNN inhibited biofilm formation and disrupted mature biofilms. Furthermore, RuNN altered the cellular morphology of S. aureus biofilms. Further, RuNN did not cause hemolysis of erythrocytes. The results of this study provide evidence that RuNN is a novel therapeutic candidate to treat bacterial infections caused by Staphylococcus biofilms.- Published
- 2020
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26. A spectroelectrochemical investigation of the heme-based sensor DevS from Mycobacterium tuberculosis: a redox versus oxygen sensor.
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Barreto GA, Carepo MSP, Gondim ACS, Guimarães WG, Lopes LGF, Bernhardt PV, Paulo TF, Sousa EHS, and Diógenes ICN
- Subjects
- Bacterial Proteins chemistry, Carbon Monoxide chemistry, Cyanides chemistry, Heme, Humans, Imidazoles chemistry, Mycobacterium tuberculosis pathogenicity, Nitric Oxide chemistry, Oxidation-Reduction, Oxygen chemistry, Protamine Kinase chemistry, Tuberculosis microbiology, Tuberculosis pathology, Bacterial Proteins genetics, Biosensing Techniques, Mycobacterium tuberculosis metabolism, Protamine Kinase genetics, Tuberculosis metabolism
- Abstract
Tuberculosis is one of the oldest known infectious diseases, responsible for millions of deaths annually around the world. The ability of Mycobacterium tuberculosis (Mtb) to enter into a dormant state has been considered integral to the success of this bacterium as a human pathogen. One of the key systems involved in regulating the entrance into dormancy is the differentially expressed in virulent strain sensor protein (DevS) [(dormancy survival sensor protein (DosS)]. However, the physiological signal for DevS has remained unclear since it was first shown to be a heme-based sensor with conflicting reports on whether it is a redox or an oxygen sensor. To address this question and provide a better understanding of the electronic properties of this protein, we present here, for the first time, a series of spectroelectrochemistry measurements of the full-length holo DevS in anaerobic conditions as well as bound to CO, NO, imidazole (Imz), cyanide, and O
2 . An interesting feature of this protein is its ability to bind Imz even in the ferrous state, implying small-molecule analogues could be designed as potential regulators. Nonetheless, a midpoint potential (Em ) value of +10 mV [vs normal hydrogen electrode (NHE)] for DevS as measured under anaerobic conditions is much higher than the expected cytosolic potential for Mtb or even within stimulated macrophages (~ -270 mV vs NHE), indicating this sensor works in a reduced ferrous state. These data, along with the high oxygen affinity and very slow auto-oxidation rate of DevS, provides evidence that it is not a redox sensor. Overall, this study validates the biological function of DevS as an oxygen sensor directly involved in the dormancy/latency of Mtb., (© 2019 Federation of European Biochemical Societies.)- Published
- 2019
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27. Ascorbyl and hydroxyl radical generation mediated by a copper complex adsorbed on gold.
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Romo AIB, Dibo VS, Abreu DS, Carepo MSP, Neira AC, Castillo I, Lemus L, Nascimento OR, Bernhardt PV, Sousa EHS, and Diógenes ICN
- Abstract
This work presents the results obtained for a thioether derivative of bipyridine, (E,Z)-1-(4'-methyl-[2,2'-bipyridine]-4-yl)-N-(4(methylthio)phenyl)methanimine (4-mbpy-Bz-SMe), and its copper complex [Cu
II (4-mbpy-Bz-SMe)2 ]2+ . Electronic spectra acquired at 183 K of the cuprous complex [CuI (4-mbpy-Bz-SMe)2 ]+ generated in situ indicated the formation of the peroxodicopper compound {[CuII (4-mbpy-Bz-SMe)2 ]2 (μ-O2 2- )}2+ . A gold electrode modified with [CuII (4-mbpy-Bz-SMe)2 ]2+ (Au/[Cu]) was fully characterized by SERS spectroscopy, electrochemistry and impedance spectroscopy thus showing adsorption occurs through the sulfur atom of the 4-mbpy-Bz-SMe moieties. DNA cleavage assays showed the copper complex, in solution and adsorbed on gold, degrades DNA if reducing conditions are maintained, i.e. ascorbic acid (H2 AA) in solution or applied potentials more negative than 0.12 V vs. Ag/AgCl (CuI form). The electron paramagnetic resonance (EPR) spectra obtained for the electrolyzed solution (Eapl = -0.2 V, no H2 O2 ) and for the solution containing [CuII (4-mbpy-Bz-SMe)2 ]2+ and H2 O2 showed hydroxyl radical, HO˙, generation had occurred. The cyclic voltammograms obtained with H2 AA in solution at Au/[CuII (4-mbpy-Bz-SMe)2 ]2+ as the working electrode showed a one-electron reaction leading to the ascorbyl radical (HA˙), which was detected by EPR. The current assigned to the electrode oxidation of HA˙ to AA decreased with the addition of catalase, a scavenger of H2 O2 , meaning peroxide is involved in the mechanism.- Published
- 2019
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28. Incorporation of Nitroprusside on Silica Nanoparticles-A Strategy for Safer Use of This NO Donor in Therapy.
- Author
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Silva Filho PM, Paz IA, Nascimento NRF, Santos CF, Araújo VR, Aquino CP, Ribeiro TS, Vasconcelos IF, Lopes LGF, Sousa EHS, and Longhinotti E
- Subjects
- Animals, Aorta, Thoracic drug effects, Cell Survival drug effects, Chlorocebus aethiops, Drug Liberation, Guinea Pigs, Male, Nitric Oxide metabolism, Porosity, Pulmonary Artery drug effects, Rats, Rats, Wistar, Surface Properties, Vero Cells, Drug Delivery Systems methods, Nanoparticles chemistry, Nitric Oxide Donors adverse effects, Nitric Oxide Donors chemistry, Nitroprusside adverse effects, Nitroprusside chemistry, Silicon Dioxide chemistry
- Abstract
Silica-based nanoparticles have been developed as powerful platforms for drug delivery and might also prevent undesired side effects of drugs. Here, a fast method to synthesize positively charged mesoporous silica nanoparticles (ζ = 20 ± 0.5 mV, surface area = 678 m
2 g-1 , and 2.3 nm of porous size) was reported. This nanomaterial was employed to anchor sodium nitroprusside (SNP), a vasodilator drug with undesired cyanide release. A remarkable incorporation of 323.9 ± 7.55 μmol of SNP per gram of nanoparticle was achieved, and a series of studies of NO release were conducted, showing efficient release of NO along with major cyanide retention (ca. 64% bound to nanoparticle). Biological assays with mammalian cells showed only a slight drop in cell viability (13%) at the highest concentration (1000 μM), while SNP exhibited an LC50 of 228 μM. Moreover, pharmacological studies demonstrated similar efficacy for vasodilation and sGC-PKG-VASP pathway activation when compared to SNP alone. Altogether, this new SNP silica nanoparticle has great potential as an alternative for wider and safer use of SNP in medicine with lower cyanide toxicity.- Published
- 2019
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29. In vitro and in vivo leishmanicidal activity of a ruthenium nitrosyl complex against Leishmania (Viannia) braziliensis.
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Nascimento NRFD, Aguiar FLN, Santos CF, Costa AML, Hardoim DJ, Calabrese KDS, Almeida-Souza F, Sousa EHS, Lopes LGF, Teixeira MJ, Pereira VS, Brilhante RSN, and Rocha MFG
- Subjects
- Animals, Cricetinae, Dose-Response Relationship, Drug, Host-Parasite Interactions, Skin, Leishmania braziliensis drug effects, Ruthenium Compounds pharmacology
- Abstract
Leishmaniasis is a parasitic disease caused by protozoa of the genus Leishmania. There are many complications presented by the current treatment, as high toxicity, high cost and parasite resistance, making the development of new therapeutic agents indispensable. The present study aims to evaluate the leishmanicidal potential of ruthenium nitrosyl complex cis-[Ru(bpy)
2 (SO3 )(NO)](PF6 ) against Leishmania (Viannia) braziliensis. The effect of this metal complex on parasite-host interaction was evaluated by in vitro efficacy test in dermal fibrobast cells in the presence of different concentrations (1, 10, 50 and 100 μM) and by in vivo efficacy tests performed in the presence of two different concentrations of complex (100 μg/kg/day or 300 μg/kg/day) evaluating its effect on the size of the lesion and the number of parasites present in the draining lymph nodes in hamsters. Even at the lowest concentration of 1 μM of ruthenium complex, it was observed a significant decrease of the infected cells, after 24 h exposure in vitro, with total reduction at 50 μM of the ruthenium complex. In the in vivo cutaneous infection model, administration of daily doses of 300 μg/kg/day of complex reduced significantly lesion size by 51% (p < 0.05), with a 99.9% elimination of the parasites found in the lymph nodes (p < 0.001). The results suggest a promising leishmanicidal effect by that ruthenium nitrosyl complex against L. (V.) braziliensis., (Copyright © 2019 Elsevier B.V. All rights reserved.)- Published
- 2019
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30. Effect of Crotalus basiliscus snake venom on the redox reaction of myoglobin.
- Author
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de Souza TP, Abreu DS, Carepo MSP, Silva MAS, Zampieri D, Eberlin MN, Paulo TF, Sousa EHS, Longhinotti E, and Diógenes ICN
- Subjects
- Animals, Crotalus, Electrochemical Techniques, Humans, Myoglobin metabolism, Oxidation-Reduction, Snake Venoms chemistry, Myoglobin antagonists & inhibitors, Snake Venoms pharmacology
- Abstract
In this work, we have studied the effect of Crotalus basiliscus snake venom on the redox reaction of myoglobin (Mb), and by means of electrochemical techniques, we have shown that this reaction is undoubtedly affected following the interaction with the venom. Surface plasmon resonance, electrophoresis, UV-Vis, and circular dichroism showed that the interaction involves the attachment of some constituent of the venom to the protein, although not affecting its first and secondary structures. Mass spectra support this suggestion by showing the appearance of signals assigned to the Mb dimer and to a new species resulting from the interaction between Mb and the venom proteins. In addition, the mass spectra suggest the aromatic amino acids of myoglobin, mainly tryptophan and phenylalanine, are more exposed to the solvent medium upon the exposure to the venom solution. The results altogether indicate that the harmful effects of the venom of Crotalus basiliscus snake are likely connected to the blocking of the redox site of Mb.
- Published
- 2019
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31. Oxygen triggers signal transduction in the DevS (DosS) sensor of Mycobacterium tuberculosis by modulating the quaternary structure.
- Author
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Lobão JBDS, Gondim ACS, Guimarães WG, Gilles-Gonzalez MA, Lopes LGF, and Sousa EHS
- Subjects
- Bacterial Proteins metabolism, Chromatography, Gel, Cloning, Molecular, DNA-Binding Proteins, Escherichia coli genetics, Escherichia coli metabolism, Gene Expression, Genetic Vectors chemistry, Genetic Vectors metabolism, Heme metabolism, Humans, Hydrophobic and Hydrophilic Interactions, Latent Tuberculosis microbiology, Latent Tuberculosis pathology, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis isolation & purification, Mycobacterium tuberculosis metabolism, Oxygen chemistry, Oxygen metabolism, Phosphorylation, Protamine Kinase genetics, Protamine Kinase metabolism, Protein Interaction Domains and Motifs, Protein Kinases metabolism, Protein Multimerization, Protein Structure, Quaternary, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Regulon, Signal Transduction, Spectrometry, Fluorescence, Transcription, Genetic drug effects, Bacterial Proteins chemistry, Bacterial Proteins genetics, Gene Expression Regulation, Bacterial, Heme chemistry, Mycobacterium tuberculosis drug effects, Oxygen pharmacology, Protamine Kinase chemistry, Protein Kinases genetics
- Abstract
A major challenge to the control and eventual eradication of Mycobacterium tuberculosis infection is this pathogen's prolonged dormancy. The heme-based oxygen sensor protein DevS (DosS) plays a key role in this phenomenon, because it is a major activator of the transcription factor DevR. When DevS is active, its histidine protein kinase region is ON and it phosphorylates and activates DevR, which can induce the transcription of the dormancy regulon genes. Here, we have investigated the mechanism by which the ligation of molecular oxygen to a heme-binding domain in DevS switches OFF its histidine protein kinase region. To shed light on the oligomerization states of this protein and possible protein-surfaces of interaction, we used analytical gel filtration, together with dynamic light scattering, fluorescence spectroscopy and chemical crosslinking. We found that DevS exists as three major species: an octamer, a tetramer and a dimer. These three states were observed for the concentration range between 0.5 and 20 μm DevS, but not below 0.1 μm. Levels of DevS in M. tuberculosis are expected to range from 5 to 26 μm. When this histidine protein kinase was OFF, the DevS was mainly tetrameric and dimeric; by contrast, when the kinase was ON, the protein was predominantly octameric. The changes in quaternary structure were rapid upon binding to the physiological signal. This finding represents a novel strategy for switching the activity of a two-component heme-based sensor. An enhanced understanding of this process might potentially lead to the design of novel regulatory agents that target the multimer interfaces for treatment of latent tuberculosis., (© 2018 Federation of European Biochemical Societies.)
- Published
- 2019
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32. Escherichia coli DosC and DosP: a role of c-di-GMP in compartmentalized sensing by degradosomes.
- Author
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Gilles-Gonzalez MA and Sousa EHS
- Subjects
- Cyclic GMP metabolism, Endoribonucleases genetics, Endoribonucleases metabolism, Escherichia coli genetics, Escherichia coli metabolism, Escherichia coli Proteins genetics, Multienzyme Complexes genetics, Multienzyme Complexes metabolism, Nucleotidyltransferases genetics, Phosphoric Diester Hydrolases genetics, Polyribonucleotide Nucleotidyltransferase genetics, Polyribonucleotide Nucleotidyltransferase metabolism, RNA Helicases genetics, RNA Helicases metabolism, Second Messenger Systems, Cyclic GMP analogs & derivatives, Escherichia coli enzymology, Escherichia coli Proteins metabolism, Nucleotidyltransferases metabolism, Phosphoric Diester Hydrolases metabolism
- Abstract
The Escherichia coli operon dosCP, also called yddV-yddU, co-expresses two heme proteins, DosC and DosP, both of which are direct oxygen sensors but paradoxically have opposite effects on the levels of the second messenger c-di-GMP. DosC is a diguanylate cyclase that synthesizes c-di-GMP from GTP, whereas DosP is a phosphodiesterase that linearizes c-di-GMP to pGpG. Both proteins are associated with the large degradosome enzyme complex that regulates many bacterial genes post-transcriptionally by processing or degrading the corresponding RNAs. Moreover, the c-di-GMP directly binds to PNPase, a key degradosome enzyme, and enhances its activity. This review combines biochemical, biophysical, and genetic findings on DosC and DosP, a task that has not been undertaken until now, partly because of the varied nomenclature. The DosC and DosP system is examined in the context of the current knowledge of degradosomes and considered as a possible prototype for the compartmentalization of sensing by E. coli., (Copyright © 2019 Elsevier Ltd. All rights reserved.)
- Published
- 2019
- Full Text
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33. Structural aspects and physiological implications of the hemoglobin of green iguana (Iguana iguana).
- Author
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Teixeira CS, Cabral MES, Carneiro RF, Brito SV, Nagano CS, Silva ALC, Garcia W, Almeida WO, Sampaio AH, Delatorre P, Carvalho JMS, Sousa EHS, and Rocha BAM
- Subjects
- Adenosine Diphosphate metabolism, Allosteric Regulation, Animals, Hydrogen-Ion Concentration, Iguanas metabolism, Models, Molecular, Oxygen metabolism, Protein Structure, Secondary, Temperature, Hemoglobins chemistry, Hemoglobins metabolism, Iguanas physiology
- Published
- 2018
- Full Text
- View/download PDF
34. A vanillin-based copper(ii) metal complex with a DNA-mediated apoptotic activity.
- Author
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de Medeiros WMTQ, de Medeiros MJC, Carvalho EM, de Lima JA, da S Oliveira V, de B Pontes ACF, da Silva FON, Ellena JA, de O Rocha HA, de Sousa EHS, and de L Pontes D
- Abstract
Vanillin (vanH) is the major component of vanilla and one of the most widely used flavoring agents. In this work the complex [Cu(phen)(van)
2 ] was prepared and characterized by structural (X-ray), spectroscopic (IR, UV-Vis, EPR) and electrochemical techniques. This compound showed an octahedral geometry with an unusual arrangement of the vanillin ligands, where the methoxy groups of the vanillinate ions are coordinated opposite to each other. The compound promoted DNA cleavage in the presence of glutathione (GSH) and H2 O2 . At 40 μmol L-1 of complex with GSH (10 mmol L-1 ), there is a complete cleavage of DNA to nicked form II, while only at 10 μmol L-1 of this complex with H2 O2 (1 mmol L-1 ) an extensive cleavage leading to form III took place. Additionally, we have evidences of superoxide generation upon reaction with GSH. Therefore, DNA fragmentation occurs likely through an oxidative pathway. MTT assays indicated that the complex is highly cytotoxic against three distinct cell lines: B16-F10 (IC50 = 3.39 ± 0.61 μmol L-1 ), HUH-7 (IC50 = 4.22 ± 0.31 μmol L-1 ) and 786-0 (IC50 = 10.38 ± 0.91 μmol L-1 ). Flow cytometry studies conducted with 786-0 cell line indicated cell death might occur by apoptosis. Cell cycle progression evaluated at 5 and 10 μmol L-1 resulted in a clear increase of 786-0 cells at G1 phase and depletion of G2/M, while higher doses showed an expressive increase of sub-G1 phase. Altogether, these results pointed out to a promising biological activity and potential as an anti-cancer agent., Competing Interests: There are no conflicts to declare, (This journal is © The Royal Society of Chemistry.)- Published
- 2018
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35. Is IQG-607 a Potential Metallodrug or Metallopro-Drug With a Defined Molecular Target in Mycobacterium tuberculosis ?
- Author
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Abbadi BL, Rodrigues-Junior VDS, Dadda ADS, Pissinate K, Villela AD, Campos MM, Lopes LGF, Bizarro CV, Machado P, Sousa EHS, and Basso LA
- Abstract
The emergence of strains of Mycobacterium tuberculosis resistant to isoniazid (INH) has underscored the need for the development of new anti-tuberculosis agents. INH is activated by the mycobacterial katG -encoded catalase-peroxidase, forming an acylpyridine fragment that is covalently attached to the C4 of NADH. This isonicotinyl-NAD adduct inhibits the activity of 2- trans -enoyl-ACP(CoA) reductase (InhA), which plays a role in mycolic acid biosynthesis. A metal-based INH analog, Na
3 [FeII (CN)5 (INH)]·4H2 O, IQG-607, was designed to have an electronic redistribution on INH moiety that would lead to an intramolecular electron transfer to bypass KatG activation. HPLC and EPR studies showed that the INH moiety can be oxidized by superoxide or peroxide yielding similar metabolites and isonicotinoyl radical only when associated to IQG-607, thereby supporting redox-mediated drug activation as a possible mechanism of action. However, IQG-607 was shown to inhibit the in vitro activity of both wild-type and INH-resistant mutant InhA enzymes in the absence of KatG activation. IQG-607 given by the oral route to M. tuberculosis -infected mice reduced lung lesions. Experiments using early and late controls of infection revealed a bactericidal activity for IQG-607. HPLC and voltammetric methods were developed to quantify IQG-607. Pharmacokinetic studies showed short half-life, high clearance, moderate volume of distribution, and low oral bioavailability, which was not altered by feeding. Safety and toxic effects of IQG-607 after acute and 90-day repeated oral administrations in both rats and minipigs showed occurrence of mild to moderate toxic events. Eight multidrug-resistant strains (MDR-TB) were resistant to IQG-607, suggesting an association between katG mutation and increasing MIC values. Whole genome sequencing of three spontaneous IQG-607-resistant strains harbored katG gene mutations. MIC measurements and macrophage infection experiments with a laboratorial strain showed that katG mutation is sufficient to confer resistance to IQG-607 and that the macrophage intracellular environment cannot trigger the self-activation mechanism. Reduced activity of IQG-607 against an M. tuberculosis strain overexpressing S94A InhA mutant protein suggested both the need for KatG activation and InhA as its target. Further efforts are suggested to be pursued toward attempting to translate IQG-607 into a chemotherapeutic agent to treat tuberculosis.- Published
- 2018
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36. Thiocarbonyl-bound metallonitrosyl complexes with visible-light induced DNA cleavage and promising vasodilation activity.
- Author
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Silva CDS, Paz IA, Abreu FD, de Sousa AP, Veríssimo CP, Nascimento NRF, Paulo TF, Zampieri D, Eberlin MN, Gondim ACS, Andrade LC, Carvalho IMM, Sousa EHS, and Lopes LGF
- Subjects
- Molecular Structure, Nitric Oxide chemistry, Ruthenium chemistry, DNA Cleavage radiation effects, DNA Damage drug effects, DNA Damage radiation effects, Light, Ruthenium Compounds chemistry, Ruthenium Compounds pharmacology, Vasodilator Agents chemistry, Vasodilator Agents pharmacology
- Abstract
Nitric oxide has been involved in many key biological processes such as vasodilation, platelet aggregation, apoptosis, memory function, and this has drawn attention to the development of exogenous NO donors. Metallonitrosyl complexes are an important class of these compounds. Here, two new ruthenium nitrosyl complexes containing a thiocarbonyl ligand, with the formula cis-[Ru(phen)
2 (L)(NO)](PF6 )3 (phen = phenantroline, L = thiourea or thiobenzamide), were synthesized and characterized by electronic spectroscopy, FTIR, NMR, mass spectrometry and voltammetric techniques. Theoretical calculations using Density Functional Theory (DFT) and Time-dependent Density Functional Theory (TD-DFT) were also used and further supported the characterizations of these complexes. An efficient release of nitric oxide by blue light was validated using a NO/HNO probe: 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide, known as cPTIO. Interestingly, the complex containing thiourea cleaved DNA even in the dark, while both complexes showed great DNA photocleavage activity in blue light. This process might work mainly through NO and hydroxyl radical production. Additionally, these complexes showed promising vasodilator activity, whose mechanism of action was investigated using N-Nitro-l-arginine methyl ester hydrochloride (L-NAME) and 1H-[1,2,4]Oxadiazolo[4,3-a]quinoxalin-1-one (ODQ) and compared to sodium nitroprusside. Both compounds were indeed NO-mediated heme-dependent activators of soluble guanylate cyclase. Additionally, they did not show any significant cytotoxicity against cancer cell lines U87 and GBM02. Altogether, these results supported both complexes having potential pharmacological applications that deserve further studies., (Copyright © 2018 Elsevier Inc. All rights reserved.)- Published
- 2018
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37. Synthesis and mechanistic investigation of iron(II) complexes of isoniazid and derivatives as a redox-mediated activation strategy for anti-tuberculosis therapy.
- Author
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Laborde J, Deraeve C, de Mesquita Vieira FG, Sournia-Saquet A, Rechignat L, Villela AD, Abbadi BL, Macchi FS, Pissinate K, Bizarro CV, Machado P, Basso LA, Pratviel G, de França Lopes LG, Sousa EHS, and Bernardes-Génisson V
- Subjects
- Antitubercular Agents chemical synthesis, Antitubercular Agents chemistry, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Ferrous Compounds chemical synthesis, Ferrous Compounds chemistry, Isoniazid chemical synthesis, Isoniazid chemistry, Microbial Sensitivity Tests, Models, Chemical, Mycobacterium tuberculosis drug effects, Oxidation-Reduction, Antitubercular Agents pharmacology, Coordination Complexes pharmacology, Ferrous Compounds pharmacology, Isoniazid analogs & derivatives, Isoniazid pharmacology
- Abstract
The emergence of multidrug-resistant strains of Mycobacterium tuberculosis (MTB) represents a major threat to global health. Isoniazid (INH) is a prodrug used in the first-line treatment of tuberculosis. It undergoes oxidation by a catalase-peroxidase KatG, leading to generation of an isonicotinoyl radical that reacts with NAD(H) forming the INH-NADH adduct as the active metabolite. A redox-mediated activation of isoniazid using an iron metal complex was previously proposed as a strategy to overcome isoniazid resistance due to KatG mutations. Here, we have prepared a series of iron metal complexes with isoniazid and analogues, containing alkyl substituents at the hydrazide moiety, and also with pyrazinamide derivatives. These complexes were activated by H
2 O2 and studied by ESR and LC-MS. For the first time, the formation of the oxidized INH-NAD adduct from the pentacyano(isoniazid)ferrate(II) complex was detected by LC-MS, supporting a redox-mediated activation, for which a mechanistic proposition is reported. ESR data showed all alkylated hydrazides, in contrast to non-substituted hydrazides, only generated alkyl-based radicals. The structural modifications did not improve minimal inhibitory concentration (MIC) against MTB in comparison to isoniazid iron complex, providing support to isonicotinoyl radical formation as a requirement for activity. Nonetheless, the pyrazinoic acid hydrazide iron complex showed redox-mediated activation using H2 O2 with generation of a pyrazinoyl radical intermediate and production of pyrazinoic acid, which is in fact the active metabolite of pyrazinamide prodrug. Thereby, this strategy can also unveil new opportunities for activation of this type of drug., (Copyright © 2017 Elsevier Inc. All rights reserved.)- Published
- 2018
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38. Target DNA stabilizes Mycobacterium tuberculosis DevR/DosR phosphorylation by the full-length oxygen sensors DevS/DosS and DosT.
- Author
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Sousa EHS, Gonzalez G, and Gilles-Gonzalez MA
- Subjects
- Bacterial Proteins chemistry, DNA chemistry, DNA-Binding Proteins, Gene Expression Regulation, Bacterial, Humans, Magnetite Nanoparticles chemistry, Mycobacterium tuberculosis growth & development, Phosphorylation, Protamine Kinase chemistry, Protein Kinases chemistry, Regulon, Bacterial Proteins metabolism, DNA metabolism, Mycobacterium tuberculosis metabolism, Oxygen metabolism, Protamine Kinase metabolism, Protein Kinases metabolism
- Abstract
Mycobacterium tuberculosis strongly relies on a latency, or nonreplicating persistence, to escape a human host's immune system. The DevR (DosR), DevS (DosS), and DosT proteins are key components of this process. Like the rhizobial FixL oxygen sensor, DevS and DosT are histidine protein kinases with a heme-binding domain. Like the FixJ partner and substrate of FixL, DevR is a classical response regulator of the two-component class. When activated by DevS or DosT during hypoxia in vivo, DevR induces a dormancy regulon of more than 40 genes. To investigate the contributions of DevS, DosT, and target DNA to the phosphorylation of DevR, we developed an in vitro assay in which the full-length, sensing, DevS and DosT proteins were used to phosphorylate DevR with ATP, in the presence of target DNAs that were introduced as oligonucleotides linked to magnetic nanoparticles. We found that the DevR phosphorylations proceeded only for the deoxy states of the sensors. The reaction was strongly inhibited by O
2 , but not CO or NO. The production of phospho-DevR was enhanced sixfold by target consensus DNA or acr-DNA. The phospho-DevR bound tightly to that DNA (Kd ~ 0.8 nm toward acr-DNA), and it was only slightly displaced by a 200-fold excess of unphosphorylated DevR or of a truncated DevR with only a DNA-binding domain. To our knowledge, this represents the first in vitro study of the ligand regulation of DevR phosphorylation by full-length DevS and DosT, and demonstration of a positive effect of DNA on this reaction., (© 2017 Federation of European Biochemical Societies.)- Published
- 2017
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39. The potent anti-cancer activity of Dioclea lasiocarpa lectin.
- Author
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Gondim ACS, Romero-Canelón I, Sousa EHS, Blindauer CA, Butler JS, Romero MJ, Sanchez-Cano C, Sousa BL, Chaves RP, Nagano CS, Cavada BS, and Sadler PJ
- Subjects
- A549 Cells, Antineoplastic Agents, Phytogenic chemistry, Humans, MCF-7 Cells, Neoplasms metabolism, Neoplasms pathology, Plant Lectins chemistry, Antineoplastic Agents, Phytogenic pharmacology, Dioclea chemistry, G2 Phase Cell Cycle Checkpoints drug effects, M Phase Cell Cycle Checkpoints drug effects, Neoplasms drug therapy, Plant Lectins pharmacology
- Abstract
The lectin DLasiL was isolated from seeds of the Dioclea lasiocarpa collected from the northeast coast of Brazil and characterized for the first time by mass spectrometry, DNA sequencing, inductively coupled plasma-mass spectrometry, electron paramagnetic resonance, and fluorescence spectroscopy. The structure of DLasiL lectin obtained by homology modelling suggested strong conservation of the dinuclear Ca/Mn and sugar-binding sites, and dependence of the solvent accessibility of tryptophan-88 on the oligomerisation state of the protein. DLasiL showed highly potent (low nanomolar) antiproliferative activity against several human carcinoma cell lines including A2780 (ovarian), A549 (lung), MCF-7 (breast) and PC3 (prostate), and was as, or more, potent than the lectins ConBr (Canavalia brasiliensis), ConM (Canavalia maritima) and DSclerL (Dioclea sclerocarpa) against A2780 and PC3 cells. Interestingly, DLasiL lectin caused a G2/M arrest in A2780 cells after 24h exposure, activating caspase 9 and delaying the on-set of apoptosis. Confocal microscopy showed that fluorescently-labelled DLasiL localized around the nuclei of A2780 cells at lectin doses of 0.5-2× IC
50 and gave rise to enlarged nuclei and spreading of the cells at high doses. These data reveal the interesting antiproliferative activity of DLasiL lectin, and suggest that further investigations to explore the potential of DLasiL as a new anticancer agent are warranted., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)- Published
- 2017
- Full Text
- View/download PDF
40. Aryl-Substituted Ruthenium(II) Complexes: A Strategy for Enhanced Photocleavage and Efficient DNA Binding.
- Author
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Abreu FD, Paulo TF, Gehlen MH, Ando RA, Lopes LGF, Gondim ACS, Vasconcelos MA, Teixeira EH, Sousa EHS, and de Carvalho IMM
- Subjects
- 2,2'-Dipyridyl chemical synthesis, 2,2'-Dipyridyl chemistry, 2,2'-Dipyridyl pharmacology, 2,2'-Dipyridyl radiation effects, Anthracenes chemical synthesis, Anthracenes chemistry, Anthracenes pharmacology, Anthracenes radiation effects, Anti-Bacterial Agents chemical synthesis, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents radiation effects, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Coordination Complexes radiation effects, DNA Damage, Ethidium pharmacology, Gram-Positive Bacteria drug effects, Intercalating Agents chemical synthesis, Intercalating Agents chemistry, Intercalating Agents radiation effects, Ligands, Light, Oxygen chemistry, Photosensitizing Agents chemical synthesis, Photosensitizing Agents chemistry, Photosensitizing Agents pharmacology, Photosensitizing Agents radiation effects, Reactive Oxygen Species chemical synthesis, Coordination Complexes pharmacology, DNA chemistry, Intercalating Agents pharmacology, Ruthenium chemistry
- Abstract
Ruthenium polypyridine complexes have shown promise as agents for photodynamic therapy (PDT) and tools for molecular biology (chromophore-assisted light inactivation). To accomplish these tasks, it is important to have at least target selectivity and great reactive oxygen species (ROS) photogeneration: two properties that are not easily found in the same molecule. To prepare such new agents, we synthesized two new ruthenium complexes that combine an efficient DNA binding moiety (dppz ligand) together with naphthyl-modified (1) and anthracenyl-modified (2) bipyridine as a strong ROS generator bound to a ruthenium complex. The compounds were fully characterized and their photophysical and photochemical properties investigated. Compound 2 showed one of the highest quantum yields for singlet oxygen production ever reported (Φ
Δ = 0.96), along with very high DNA binding (log Kb = 6.78). Such photochemical behavior could be ascribed to the lower triplet state involving the anthracenyl-modified bipyridine, which is associated with easier oxygen quenching. In addition, the compounds exhibited moderate selectivity toward G-quadruplex DNA and binding to the minor groove of DNA, most likely driven by the pendant ligands. Interestingly, they also showed DNA photocleavage activity even upon exposure to a yellow light-emitting diode (LED). Regarding their biological activity, the compounds exhibited an exciting antibacterial action, particularly against Gram-positive bacteria, which was enhanced upon blue LED irradiation. Altogether, these results showed that our strategy succeeded in producing light-triggered DNA binding agents with pharmacological and biotechnological potential.- Published
- 2017
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41. Photochemical studies of cis-[Ru(bpy) 2 (4-bzpy)(CO)](PF 6 ) 2 and cis-[Ru(bpy) 2 (4-bzpy)(Cl)](PF 6 ): Blue light-induced nucleobase binding.
- Author
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de Sousa AP, Carvalho EM, Ellena J, Sousa EHS, de Sousa JR, Lopes LGF, Ford PC, and Holanda AKM
- Subjects
- Carbon Monoxide chemistry, Crystallography, X-Ray, Magnetic Resonance Spectroscopy, Models, Molecular, X-Ray Diffraction, 2,2'-Dipyridyl chemical synthesis, Light, Photochemistry methods, Pyridines chemistry, Ruthenium Compounds chemistry
- Abstract
The ruthenium(II) compounds cis-[Ru(bpy)
2 (4-bzpy)(CO)](PF6 )2 (I) and cis-[Ru(bpy)2 (4-bzpy)(Cl)](PF6 ) (II) (4-bzpy=4-benzoylpyridine, bpy=2,2'-bipyridine) were synthesized and characterized by spectroscopic and electrochemical techniques. The crystal structure of II was determined by X-ray diffraction. The photochemical behavior of I in aqueous solution shows that irradiation with ultraviolet light (365nm) releases both CO and 4-bzpy leading to the formation of the cis-[Ru(bpy)2 (H2 O)2 ]2+ ion as identified by NMR and electronic spectroscopy. Carbon monoxide release was confirmed with the myoglobin method and by gas chromatographic analysis of the headspace. CO release was not observed when aqueous I was irradiated with blue light (453nm). Changes in the electronic and1 H NMR spectra indicate that I undergoes photoaquation of 4-bzpy to form cis-[Ru(bpy)2 (CO)(H2 O)]2+ . Blue light irradiation of aqueous II released the coordinated 4-bzpy to give the cis-[Ru(bpy)2 (H2 O)(Cl)]2+ ion. When the latter reaction was carried out in the presence of the nucleobase guanine, Ru-guanine adducts were formed, indicating that the metal containing photoproduct may also participate in biologically relevant reactions. The photochemical behavior of I indicates that it can release either CO or 4-bzpy depending on the wavelength chosen, a feature that may have therapeutic application., (Copyright © 2017 Elsevier Inc. All rights reserved.)- Published
- 2017
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42. Insights into signal transduction by a hybrid FixL: Denaturation study of on and off states of a multi-domain oxygen sensor.
- Author
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Guimarães WG, Gondim ACS, Costa PMDS, Gilles-Gonzalez MA, Lopes LGF, Carepo MSP, and Sousa EHS
- Subjects
- Fluorescence, Histidine Kinase, Oxygen chemistry, Protein Denaturation, Protein Folding, Spectrum Analysis, Urea chemistry, Bacterial Proteins metabolism, Hemeproteins metabolism, Oxygen metabolism, Signal Transduction physiology
- Abstract
FixL from Rhizobium etli (ReFixL) is a hybrid oxygen sensor protein. Signal transduction in ReFixL is effected by a switch off of the kinase activity on binding of an oxygen molecule to ferrous heme iron in another domain. Cyanide can also inhibit the kinase activity upon binding to the heme iron in the ferric state. The unfolding by urea of the purified full-length ReFixL in both active pentacoordinate form, met-FixL(Fe
III ) and inactive cyanomet-FixL (FeIII -CN- ) form was monitored by UV-visible absorption spectroscopy, circular dichroism (CD) and fluorescence spectroscopy. The CD and UV-visible absorption spectroscopy revealed two states during unfolding, whereas fluorescence spectroscopy identified a three-state unfolding mechanism. The unfolding mechanism was not altered for the active compared to the inactive state; however, differences in the ΔGH2O were observed. According to the CD results, compared to cyanomet-FixL, met-FixL was more stable towards chemical denaturation by urea (7.2 vs 4.8kJmol-1 ). By contrast, electronic spectroscopy monitoring of the Soret band showed cyanomet-FixL to be more stable than met-FixL (18.5 versus 36.2kJmol-1 ). For the three-state mechanism exhibited by fluorescence, the ΔGH2O for both denaturation steps were higher for the active-state met-FixL than for cyanomet-FixL. The overall stability of met-FixL is higher in comparison to cyanomet-FixL suggesting a more compact protein in the active form. Nonetheless, hydrogen bonding by bound cyanide in the inactive state promotes the stability of the heme domain. This work supports a model of signal transduction by FixL that is likely shared by other heme-based sensors., (Copyright © 2017 Elsevier Inc. All rights reserved.)- Published
- 2017
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43. Haem-Based Sensors of O 2 : Lessons and Perspectives.
- Author
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Sousa EHS and Gilles-Gonzalez MA
- Subjects
- Heme metabolism, Mycobacterium tuberculosis metabolism, Mycobacterium tuberculosis physiology, Rhizobium metabolism, Heme physiology, Oxygen metabolism, Signal Transduction physiology
- Abstract
Haem-based sensors have emerged during the last 15 years as being a large family of proteins that occur in all kingdoms of life. These sensors are responsible mainly for detecting binding of O
2 , CO and NO and reporting the ligation status to an output domain with an enzymatic or macromolecule-binding property. A myriad of biological functions have been associated with these sensors, which are involved in vasodilation, bacterial symbiosis, chemotaxis and biofilm formation, among others. Here, we critically review several bacterial systems for O2 sensing that are extensively studied in many respects, focusing on the lessons that are important to advance the field., (© 2017 Elsevier Ltd All rights reserved.)- Published
- 2017
- Full Text
- View/download PDF
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