DEFAR - Artigos publicados em periódicos
URI permanente para esta coleçãohttp://www.hml.repositorio.ufop.br/handle/123456789/531
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Item Benzophenone derivatives showed dual anti-inflammatory and antiproliferative activities by inhibiting cox enzymes and promote cyclin e downregulation.(2022) Folquitto, Laís Regina dos Santos; Souza, Thiago Belarmino de; Januário, Jaqueline Pereira; Nascimento, Isadora M.; Brandão, Brenda Tavares de Vasconcelos; Moreira, Maria E. C.; Horvath, Renato de Oliveira; Santos, Marcelo Henrique dos; Coelho, Luiz Felipe Leomil; Veloso, Marcia Paranho; Soares, Marisi Gomes; Carvalho, Diogo Teixeira; Ionta, Marisa; Paula, Daniela Aparecida Chagas de; Dias, Danielle FerreiraConsidering the promising antitumor effects of compounds with dual anti-inflammatory and antiproliferative activities, thus benzophenones analogs (2-7) were evaluated on in vivo anti- inflammatory assay and molecular docking analysis. Those with the best molecular docking results were in vitro evaluated on cyclooxygenase (COX) enzymes and tested regarding antiproliferative activity. All derivatives displayed in vivo anti-inflammatory activity. Among them, the substances 2’-hydroxy-4’-benzoylphenyl-β-D-glucopyranoside (4), 4-hydroxy-4’-methoxybenzophenone (5) and 4’-(4’’-methoxybenzoyl)phenyl-β-D-glucopyranoside (7)showed the best values of Glide Score in COX-2 docking evaluation and 4 and 5 selectively inhibited COX-2 and COX-1 in vitro enzymatic assay, respectively. Thus, 4 and 5 were tested against breast cancer (MCF-7, MDA-MB-231, Hs578T) and non-small-cell-lung cancer (A549) cell lines. The estrogen-positive MCF-7 cell line was more responsive compared to other tested cell lines. They induced cell cycle arrest at G1/S transition in MCF-7 cell line once there was an increase in G0/G1 population with concomitant reduction of S population. The antiproliferative activity of these substances on MCF-7 was associated with their ability to inhibit cyclin E expression, a critical regulator of G1/S transition. Taken together, the data indicate that 4 and 5 have dual anti-inflammatory and antiproliferative activities and support further studies to evaluate their antitumor potential.Item Glucosyl-1,2,3-triazoles derived from eugenol and analogues : synthesis, anti-Candida activity, and molecular modeling studies in CYP-51.(2021) Magalhães, Lorena Severiano de; Reis, Adriana Cotta Cardoso; Nakao, Izadora Amaral; Péret, Vinícius Augusto Campos; Reis, Rúbia Castro Fernandes Melo; Silva, Naiara Chaves; Dias, Amanda Latercia Tranches; Carvalho, Diogo Teixeira; Dias, Danielle Ferreira; Brandão, Geraldo Célio; Braga, Saulo Fehelberg Pinto; Souza, Thiago Belarmino deThis work describes the synthesis, anti-Candida, and molecular modeling stud- ies of eighteen new glucosyl-1,2,3-triazoles derived from eugenol and corre- lated phenols. The new compounds were characterized by combined Fourier Transform Infrared, 1 H and 13C nuclear magnetic resonance and spectroscopy of high-resolution mass spectrometry. The synthesized compounds did not show significant cytotoxicity against healthy fibroblast human cells (MCR-5) providing interesting selectivity indexes (SI) to active compounds. Considering the antifun- gal activity, nine compounds showed anti-Candida potential and the peracety- lated triazoles 17 and 18 were the most promising ones. Eugenol derivative 17 was active against three species of Candida at 26.1–52.1 μM. This compound was four times more potent than fluconazole against Candida krusei and less toxic (SI > 6.6) against the MCR-5 cells than fluconazole (SI > 3.3) considering this strain. Dihydroeugenol derivative 18 showed similar activity to 17 and was four times more potent and less toxic than fluconazole against C. krusei. The deacety- lated glucosides and non-glucosylated corresponding derivatives did not show considerable antifungal action, suggesting that the acetyl groups are essential for their anti-Candida activity. Molecular docking coupled with molecular dynam- ics showed that 14α-lanosterol demethylase is a feasible molecular target, since 17 and 18 could bind to this enzyme once deacetylated in vivo, thereby acting as prodrugs. Also, these studies demonstrated the importance of hydrophobic sub- stituents at the phenyl ring.Item Removal of dexamethasone by oxidative processes : structural characterization of degradation products and estimation of the toxicity.(2021) Quaresma, Amanda de Vasconcelos; Rúbio, Karina Taciana Santos; Taylor, Jason Guy; Sousa, Bianca Aline de; Silva, Silvana de Queiroz; Werle, Alceni Augusta; Afonso, Robson José de Cássia FrancoDexamethasone (DEX) belongs to a class of steroid hormones that can potentially be harmful due to their endocrine disrupting properties. The efficient elimination of DEX during the treatment of drinking water is needed to ensure that the health of both human and aquatic species are protected. Thus different oxidative processes were investigated in order to assess the effect of these procedures and conditions on DEX. Aqueous solutions of DEX were treated by conventional chlorination ([NaClO]=10 mg L− 1 ) and advanced oxidative processes (ozonation – [O3]=8 mg L− 1 ; photocatalysis – [TiO2]=120 mg L− 1 and UV-C; photolysis – UV-C). The most and least efficient processes for DEX removal were ozonation (95%) and chlorination (54%), respectively. In total, 16 degradation products were identified and characterized by high-resolution mass spectrometry and only two have been proposed in previous reports. Chemical structures of the degradation products were proposed and alcohol oxidation, ozonolysis and decarboxylation were the main chemical transformations observed. The toxicities of DEX and its derivatives were evaluated by following methods: MTT assay (HepG2 cell), ECOSAR (acute and chronic toxicity) and molecular docking (AutoDock). MTT assay results demonstrated that only a mixture DEX and the chlorinated derivative were toxic at high concentrations. ECOSAR analysis showed that products formed from dehydration and fluoride elimination were more toxic than intact DEX, mainly for fish and Daphnid and to a lesser extent for green algae. The docking study revealed that these degradation products were not capable of making hydrogen bonds with residual amino acids GLN570, GLN642 and CYS736, but were stable at the glucocorticoid receptor indicating the possibility of being toxic to humans.Item Synthesis and structural characterization of new benzylidene glycosides, cytotoxicity against cancer cell lines and molecular modeling studies.(2021) Péret, Vinícius Augusto Campos; Reis, Adriana Cotta Cardoso; Silva, Naiara Chaves; Dias, Amanda Latercia Tranches; Carvalho, Diogo Teixeira; Dias, Danielle Ferreira; Braga, Saulo Fehelberg Pinto; Brandão, Geraldo Célio; Souza, Thiago Belarmino deThis work describes the synthesis, structural characterization (by combined Fourier Transform Infrared - FTIR, 1H and 13C Nuclear Magnetic Resonance - NMR spectroscopy and High Resolution Mass Spectrometry - HRMS) and biological evaluation of a new series of glycosides designed from a benzylidene glucoside derived from eugenol (23) active against Candida glabrata. The mass accuracy between the calculated and found values observed in HRMS analyses were lower than 5 ppm, which are acceptable for proposing a molecular formula using this technique. We decided to keep the benzylidene group of 23, while changing either the saccharide unit (glucose or galactose) or the natural aglycone (eugenol, isoeugenol, dihydroeugenol or guaiacol) to check their influence in antifungal activity. Since the chemical modifications performed did not contribute to enhance the antifungal activity, the synthesized compounds (23– 30) were further screened against four cancer cell lines (HeLa: cervix carcinoma; MDA-MB-231: breast carcinoma; T-24: urinary bladder carcinoma; and TOV-21G: ovarian carcinoma). The glucoside 27 showed promising activities (IC50 10.08–59.91 μM) against all the assayed cancer cell lines and higher values of selectivity index than doxorubicin, the control drug. The galactoside 28 demonstrated interesting results against HeLa, MDA-MB-231 and T-24 cells. This compound was active at 17.41 μM with a selectivity index greater than 13.7 against the HeLa cells, while doxorubicin was active at 10.01 μM with a selectivity index close to 1.5 considering this cell line. Further, we performed docking studies of these compounds with type II topoisomerase-DNA complex (TOP2) in order to try to explain their mechanism of action.