Currently multiresistant Staphylococcus aureus is one
common cause of infections with high rates of morbidity and mortality worldwide,
which directs scientific endeavors in search for novel antimicrobials. In this study,
nine extracts from Bidens pilosa (root, stem, flower and leaves) and
Annona crassiflora (rind fruit, stem, leaves, seed and pulp) were
obtained with ethanol: water (7:3, v/v) and their in vitro
antibacterial activity evaluated through both the agar diffusion and broth
microdilution methods against 60 Oxacillin Resistant S. aureus
(ORSA) strains and against S. aureus ATCC6538. The extracts from
B. pilosa and A. crassiflora inhibited the
growth of the ORSA isolates in both methods. Leaves of B. pilosa
presented mean of the inhibition zone diameters significantly higher than
chlorexidine 0.12% against ORSA, and the extracts were more active against S.
aureus ATCC (p < 0.05). Parallel, toxicity testing by
using MTT method and phytochemical screening were assessed, and three extracts
(B. pilosa, root and leaf, and A. crassiflora,
seed) did not evidence toxicity. On the other hand, the cytotoxic concentrations
(CC50 and CC90) for other extracts ranged from 2.06 to 10.77
mg/mL. The presence of variable alkaloids, flavonoids, tannins and saponins was
observed, even though there was a total absence of anthraquinones. Thus, the extracts
from the leaves of B. pilosa revealed good anti-ORSA activity and
did not exhibit toxicity.
Overexpression of the inducible isoform of the enzyme nitric oxide synthase (iNOS) has been associated to pathological processes in the kidney. Ethanol consumption induces the renal expression of iNOS. However, the contribution of this enzyme to the deleterious effects of ethanol in the kidney remains elusive. We examined whether iNOS plays a role in the renal dysfunction and oxidative stress induced by ethanol consumption. With this purpose, male C57BL/6 wild-type (WT) or iNOS-deficient (iNOS-/-) mice were treated with ethanol (20% v/v) for 10 weeks. Treatment with ethanol increased the expression of Nox4 as well as the concentration of thiobarbituric acid reactive substances (TBARS) and the levels of tumor necrosis factor (TNF)-α in the renal cortex of WT, but not iNOS-deficient mice. Augmented serum levels of creatinine and increased systolic blood pressure were found in WT and iNOS-deficient mice treated with ethanol. WT mice treated with ethanol showed increased production of reactive oxygen species (ROS) and myeloperoxidase (MPO) activity, but these responses were attenuated in iNOS-deficient mice. We concluded that iNOS played a role in ethanol-induced oxidative stress and pro-inflammatory cytokines production in the kidney. These are mechanisms that may contribute to the renal toxicity induced by ethanol.
Cardiac damage during the acute phase of Chagas disease (CD) is associated with an increase in pro-inflammatory markers and oxidative stress. Melatonin has emerged as a promising therapy for CD due to its antioxidant and immunomodulatory properties. However, the protective action of melatonin in the cardiac tissue as well as its direct action on the parasite cycle is not fully understood. We investigated the effects of melatonin on heart parasitism in mice infected with Trypanosoma cruzi (T. cruzi) and also its effects on the parasitic proliferation in vitro. Our in vivo study showed that melatonin reduced circulating parasitemia load, but did not control tissue (heart, liver and spleen) parasitism in mice. Melatonin did not prevent the redox imbalance in the left ventricle of infected mice. Our in vitro findings showed that melatonin did not inhibit parasites replication within cells, but rather increased their release from cells. Melatonin did not control parasitism load in the heart or prevented the cardiac redox imbalance induced by acute T. cruzi infection. The hormone controlled the circulating parasitic load, but in cells melatonin accelerated parasitic release, a response that can be harmful.
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