ALESSANDRA CHOQUETA DE TOLEDO ARRUDA

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LIM/20 - Laboratório de Terapêutica Experimental, Hospital das Clínicas, Faculdade de Medicina

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Autor: MARTINS, Milton A. ×

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  • article 130 Citação(ões) na Scopus
    Structure-Activity Association of Flavonoids in Lung Diseases
    (2014) LAGO, Joao Henrique G.; TOLEDO-ARRUDA, Alessandra C.; MERNAK, Marcia; BARROSA, Kaidu H.; MARTINS, Milton A.; TIBERIO, Iolanda F. L. C.; PRADO, Carla M.
    Flavonoids are polyphenolic compounds classified into flavonols, flavones, flavanones, isoflavones, catechins, anthocyanidins, and chalcones according to their chemical structures. They are abundantly found in Nature and over 8,000 flavonoids have from different sources, mainly plant materials, have been described. Recently reports have shown the valuable effects of flavonoids as antiviral, anti-allergic, antiplatelet, antitumor, antioxidant, and anti-inflammatory agents and interest in these compounds has been increasing since they can be helpful to human health. Several mechanisms of action are involved in the biological properties of flavonoids such as free radical scavenging, transition metal ion chelation, activation of survival genes and signaling pathways, regulation of mitochondrial function and modulation of inflammatory responses. The anti-inflammatory effects of flavonoids have been described in a number of studies in the literature, but not frequently associated to respiratory disease. Thus, this review aims to discuss the effects of different flavonoids in the control of lung inflammation in some disorders such as asthma, lung emphysema and acute respiratory distress syndrome and the possible mechanisms of action, as well as establish some structure-activity relationships between this biological potential and chemical profile of these compounds.
  • conferenceObject
    Time course effects of exercise training on pulmonary injury induced by exposure to cigarette smoke in mice
    (2013) TOLEDO-ARRUDA, Alessandra C.; GUARNIER, Flavia; SUEHIRO, Camila L.; ALMEIDA, Francine; OLIVO, Clarice; LOPES, Fernanda; VIEIRA, Rodolfo; CAMARGO-FILHO, Jose Carlos Silva; CECCHINI, Rubens; LIN, Chin; MARTINS, Milton A.
  • article 10 Citação(ões) na Scopus
    Enriched inorganic compounds in diesel exhaust particles induce mitogen-activated protein kinase activation, cytoskeleton instability, and cytotoxicity in human bronchial epithelial cells
    (2015) SERIANI, Robson; JUNQUEIRA, Mara S.; CARVALHO-SOUSA, Claudia E.; ARRUDA, Alessandra Ct.; MARTINEZ, Diana; ALENCAR, Adriano M.; GARIPPO, Ana L.; BRITO, Jose Mara; MARTINS, Milton A.; SALDIVA, Paulo H. N.; NEGRI, Elnara M.; MAUAD, Thais; MACCHIONE, Mariangela
    This study assessed the effects of the diesel exhaust particles on ERR and JNK MAPKs activation, cell rheology (viscoelasticity), and cytotoxicity in bronchial epithelial airway cells (BEAS-2B). Crude DEP and DEP after extraction with hexane (DEP/HEX) were utilized. The partial reduction of some DEP/HEX organics increased the biodisponibility of many metallic elements. JNK and ERR were activated simultaneously by crude DEP with no alterations in viscoelasticity of the cells. Mitochondrial activity, however, revealed a decrease through the MIT assay. DEP/HEX treatment increased viscoelasticity and cytotoxicity (membrane damage), and also activated JNK. Our data suggest that the greater bioavailability of metals could be involved in JNK activation and, consequently, in the reduction of fiber coherence and increase in the viscoelasticity and cytotoxicity of BEAS cells. The adverse findings detected after exposure to crude DEP and to DEP/HEX reflect the toxic potential of diesel compounds. Considering the fact that the cells of the respiratory epithelium are the first line of defense between the body and the environment, our data contribute to a better understanding of the pathways leading to respiratory cell injury and provide evidence for the onset of or worsening of respiratory diseases caused by inorganic compounds present in DEP.
  • article 15 Citação(ões) na Scopus
    Plant Proteinase Inhibitor BbCI Modulates Lung Inflammatory Responses and Mechanic and Remodeling Alterations Induced by Elastase in Mice
    (2017) ALMEIDA-REIS, Rafael; THEODORO-JUNIOR, Osmar A.; OLIVEIRA, Bruno T. M.; OLIVA, Leandro V.; TOLEDO-ARRUDA, Alessandra C.; BONTURI, Camila R.; BRITO, Marlon V.; LOPES, Fernanda D. T. Q. S.; PRADO, Carla M.; FLORENCIO, Ariana C.; MARTINS, Milton A.; OWEN, Caroline A.; LEICK, Edna A.; OLIVA, Maria L. V.; TIBERIO, Iolanda F. L. C.
    Background. Proteinases play a key role in emphysema. Bauhinia bauhinioides cruzipain inhibitor (BbCI) is a serine-cysteine proteinase inhibitor. We evaluated BbCI treatment in elastase-induced pulmonary alterations. Methods. C57BL/6 mice received intratracheal elastase (ELA group) or saline (SAL group). One group of mice was treated with BbCI (days 1, 15, and 21 after elastase instillation, ELABC group). Controls received saline and BbCI (SALBC group). After 28 days, we evaluated respiratory mechanics, exhaled nitric oxide, and bronchoalveolar lavage fluid. In lung tissue we measured airspace enlargement, quantified neutrophils, TNF alpha-, MMP-9-, MMP-12-, TIMP-1-, iNOS-, and eNOS-positive cells, 8-iso-PGF2 alpha, collagen,and elastic fibers in alveolar septa and airways. MUC-5-positive cells were quantified only in airways. Results. BbCI reduced elastase-induced changes in pulmonary mechanics, airspace enlargement and elastase-induced increases in total cells, and neutrophils in BALF. BbCI reduced macrophages and neutrophils positive cells in alveolar septa and neutrophils and TNF alpha-positive cells in airways. BbCI attenuated elastic and collagen fibers, MMP-9- and MMP-12-positive cells, and isoprostane and iNOS-positive cells in alveolar septa and airways. BbCI reduced MUC5ac-positive cells in airways. Conclusions. BbCI improved lung mechanics and reduced lung inflammation and airspace enlargement and increased oxidative stress levels induced by elastase. BbCI may have therapeutic potential in chronic obstructive pulmonary disease.
  • article 22 Citação(ões) na Scopus
    Chronic exposure of diesel exhaust particles induces alveolar enlargement in mice
    (2015) YOSHIZAKI, Kelly; BRITO, Jose Mara; MORIYA, Henrique T.; TOLEDO, Alessandra C.; FERZILAN, Sandra; OLIVEIRA, Ana Paula Ligeiro de; MACHADO, Isabel D.; FARSKY, Sandra H. P.; SILVA, Luiz F. F.; MARTINS, Milton A.; SALDIVA, Paulo H. N.; MAUAD, Thais; MACCHIONE, Mariangela
    Background: Diesel exhaust particles (DEPs) are deposited into the respiratory tract and are thought to be a risk factor for the development of diseases of the respiratory system. In healthy individuals, the timing and mechanisms of respiratory tract injuries caused by chronic exposure to air pollution remain to be clarified. Methods: We evaluated the effects of chronic exposure to DEP at doses below those found in a typical bus corridor in Sao Paulo (150 mu g/m(3)). Male BALB/c mice were divided into mice receiving a nasal instillation: saline (saline; n = 30) and 30 mu g/10 mu L of DEP (DEP; n = 30). Nasal instillations were performed five days a week, over a period of 90 days. Bronchoalveolar lavage (BAL) was performed, and the concentrations of interleukin (IL)-4, IL-10, IL-13 and interferon-gamma (INF-gamma) were determined by ELISA-immunoassay. Assessment of respiratory mechanics was performed. The gene expression of Muc5ac in lung was evaluated by RT-PCR. The presence of IL-13, MAC2+ macrophages, CD3+, CD4+, CD8+ T cells and CD20+ B cells in tissues was analysed by immunohistochemistry. Bronchial thickness and the collagen/elastic fibers density were evaluated by morphometry. We measured the mean linear intercept (Lm), a measure of alveolar distension, and the mean airspace diameter (D0) and statistical distribution (D2). Results: DEP decreased IFN-gamma levels in BAL (p = 0.03), but did not significantly alter IL-4, IL-10 and IL-13 levels. MAC2+ macrophage, CD4+ T cell and CD20+ B cell numbers were not altered; however, numbers of CD3+ T cells (p <= 0.001) and CD8+ T cells (p <= 0.001) increased in the parenchyma. Although IL-13 (p = 0.008) expression decreased in the bronchiolar epithelium, Muc5ac gene expression was not altered in the lung of DEP-exposed animals. Although respiratory mechanics, elastic and collagen density were not modified, the mean linear intercept (Lm) was increased in the DEP-exposed animals (p <= 0.001), and the index D2 was statistically different (p = 0.038) from the control animals. Conclusion: Our data suggest that nasal instillation of low doses of DEP over a period of 90 days results in alveolar enlargement in the pulmonary parenchyma of healthy mice.
  • conferenceObject
    The composition of diesel exhaust particles affects differently the cell signaling and cytoskeleton in bronchial epithelial cells
    (2014) MACCHIONE, Mariangela; SERIANI, Robson; JUNQUEIRA, Mara S.; TOLEDO, Alessandra C.; MARTINEZ, Diana; ALENCAR, Adriano M.; MARTINS, Milton A.; SALDIVA, Paulo H. N.; NEGRI, Elnara M.; MAUAD, Thais
  • article 8 Citação(ões) na Scopus
    Salbutamol improves markers of epithelial function in mice with chronic allergic pulmonary inflammation
    (2011) TOLEDO, Alessandra C.; ARANTES-COSTA, Fernanda M.; MACCHIONE, Mariangela; SALDIVA, Paulo H. N.; NEGRI, Elnara M.; LORENZI-FILHO, Geraldo; MARTINS, Milton A.
    We investigated the effects of salbutamol on the markers of epithelial function in a murine model of chronic allergic pulmonary inflammation by recording the ciliary beat frequency (CBF) and the transepithelial potential difference (PD) in vivo. Mice were sensitized and received four challenges of ovalbumin (OVA group) or 0.9% saline (control group). Forty-eight hours after the 4th inhalation, we observed eosinophilia in the bronchoalveolar lavage and epithelium remodeling with stored acid mucus in the OVA group (P < 0.001). No difference in the baseline CBF was noticed between the groups; however, the OVA group had a significantly lower baseline PD (P = 0.013). Salbutamol increased the CBF in all groups studied, and the dose response curve to salbutamol increased the PD in the OVA group from 10(-4) M to 10(-2) M. We suggest that salbutamol affects the CBF and the depth of the periciliary layer, which, in great part, determines the ability of the cilia to propel the mucus layer. This effect may have a positive impact on airway mucociliary transport in asthma and may have clinical implications.
  • article 4 Citação(ões) na Scopus
    A flavanone from Baccharis retusa (Asteraceae) prevents elastase-induced emphysema in mice by regulating NF-kappa B, oxidative stress and metalloproteinases (vol 16, 79, 2015)
    (2015) TAGUCHI, Laura; PINHEIRO, Nathalia M.; OLIVO, Clarice R.; CHOQUETA-TOLEDO, Alessandra; GRECCO, Simone S.; LOPES, Fernanda D. T. Q. S.; CAPERUTO, Luciana C.; MARTINS, Milton A.; TIBERIO, Iolanda F. L. C.; CAMARA, Niels O.; LAGO, Joao Henrique G.; PRADO, Carla M.
  • article 9 Citação(ões) na Scopus
    Organic and Inorganic Fractions of Diesel Exhaust Particles Produce Changes in Mucin Profile of Mouse Trachea Explants
    (2015) SERIANI, Robson; JUNQUEIRA, Mara S.; TOLEDO, Alessandra C.; CORREA, Aristides T.; SILVA, Luiz F. F.; MARTINS, Milton A.; SALDIVA, Paulo H. N.; MAUAD, Thais; MACCHIONE, Mariangela
    Diesel exhaust particles (DEP) contain organic and inorganic elements that produce damage to the respiratory epithelium. The aim of this study was to determine the mucus profile of tracheal explants exposed to either crude diesel exhaust particles (DEP) or DEP treated with nitric acid (DEP/NA), with hexane (DEP/HEX), or with methanol (DEP/MET) at concentrations of 50 and 100 mu g/ml for 30 and 60 min. Tracheal explants were subjected to morphometric analyses to study acidic (AB+), neutral (PAS+), and mixed (AB+/PAS+) mucus production and vacuolization (V). Incubation with 50 mu g/ml crude DEP resulted in a rise in acid mucus production, an increase in vacuolization at 30 min, and reduction in neutral mucus at 30 and 60 min. Tracheas exposed to DEP/MET at 50 mu g/ml for 30 or 60 min resulted in a significant decrease in neutral mucus production and an elevation in acid mucus production. DEP/HEX increased vacuolization at both 50 and 100 mu g/ml at 30 and 60 min of exposure. Treatment with 50 mu g/ml for 30 or 60 min significantly elevated mixed mucus levels. These results suggest that DEP appear to be more toxic when administered in combination with HEX or MET. DEP/MET modified the mucus profile of the epithelium, while DEP/HEX altered mucus extrusion, and these responses might be due to bioavailability of individual elements in DEP fractions.
  • article 38 Citação(ões) na Scopus
    A flavanone from Baccharis retusa (Asteraceae) prevents elastase-induced emphysema in mice by regulating NF-kappa B, oxidative stress and metalloproteinases
    (2015) TAGUCHI, Laura; PINHEIRO, Nathalia M.; OLIVO, Clarice R.; CHOQUETA-TOLEDO, Alessandra; GRECCO, Simone S.; LOPES, Fernanda D. T. Q. S.; CAPERUTO, Luciana C.; MARTINS, Milton A.; TIBERIO, Iolanda F. L. C.; CAMARA, Niels O.; LAGO, Joao Henrique G.; PRADO, Carla M.
    Background: Pulmonary emphysema is characterized by irreversible airflow obstruction, inflammation, oxidative stress imbalance and lung remodeling, resulting in reduced lung function and a lower quality of life. Flavonoids are plant compounds with potential anti-inflammatory and antioxidant effects that have been used in folk medicine. Our aim was to determine whether treatment with sakuranetin, a flavonoid extracted from the aerial parts of Baccharis retusa, interferes with the development of lung emphysema. Methods: Intranasal saline or elastase was administered to mice; the animals were then treated with sakuranetin or vehicle 2 h later and again on days 7, 14 and 28. We evaluated lung function and the inflammatory profile in bronchoalveolar lavage fluid (BALF). The lungs were removed to evaluate alveolar enlargement, extracellular matrix fibers and the expression of MMP-9, MMP-12, TIMP-1, 8-iso-PGF-2 and p65-NF-kappa B in the fixed tissues as well as to evaluate cytokine levels and p65-NF-kappa B protein expression. Results: In the elastase-treated animals, sakuranetin treatment reduced the alveolar enlargement, collagen and elastic fiber deposition and the number of MMP-9- and MMP-12-positive cells but increased TIMP-1 expression. In addition, sakuranetin treatment decreased the inflammation and the levels of TNF-alpha, IL-1 beta and M-CSF in the BALF as well as the levels of NF-kappa B and 8-iso-PGF-2 alpha in the lungs of the elastase-treated animals. However, this treatment did not affect the changes in lung function. Conclusion: These data emphasize the importance of oxidative stress and metalloproteinase imbalance in the development of emphysema and suggest that sakuranetin is a potent candidate that should be further investigated as an emphysema treatment. This compound may be useful for counteracting lung remodeling and oxidative stress and thus attenuating the development of emphysema.