In vitro efficacy of essential oils and extracts of Schinus molle L. against Ctenocephalides felis felis.

Extracts and essential oils from plants are important natural sources of pesticides. These compounds are considered an alternative to control ectoparasites of veterinary importance. Schinus molle, an endemic species of Brazil, produces a high level of essential oil and several other compounds. The aim of this work was to determinate the chemical composition of extracts and essential oils of S. molle and further to evaluate the activity against eggs and adults of Ctenocephalides felis felis, a predominant flea that infests dogs and cats in Brazil. In an in vitro assay, the non-polar (n-hexane) extract showed 100% efficacy (800 µg cm(-2); LD50 = 524·80 µg cm(-2)) at 24 and 48 h. Its major compound was lupenone (50·25%). Essential oils from fruits and leaves were evaluated, and had 100% efficacy against adult fleas at 800 µg cm(-2) (LD50 = 353·95 µg cm(-2)) and at 50 µg cm(-2) (LD50 = 12·02 µg cm(-2)), respectively. On the other hand, the essential oil from fruits and leaves was not active against flea eggs. This is the first study that reports the insecticidal effects of essential oils and extracts obtained from Schinus molle against Ctenocephalides felis felis.

Evaluation of heavy metal toxicity in eukaryotes using a simple functional assay.

Although carcinogenesis caused by metals has been intensively investigated, the mechanisms of action, especially at the molecular level, are still unclear. This work aimed to investigate Cd(2+), Cu(2+), Ni(2+), Cr(3+), and Zn(2+) mutagenicity and its relationship with oxidative stress. We have applied the Functional Assay for the Separation of Alleles in Yeast (FASAY) with only minor modifications to detect p53 defects caused by metals. In this method, human p53-coding gene (TP53) expressed in Saccharomyces cerevisiae activates transcription of the ADE2 reporter gene. Yeast cells, expressing p53, were exposed to increased concentrations of metals and, then, plated on media supplemented or not with adenine. Yeast colonies containing functional p53 grow independently of adenine supplementation and colonies containing nonfunctional p53 are dependent on this nutrient. Mutations in the TP53 are implicated in the pathogenesis of half of all human tumors. According to our results, Cd(2+) was found to be the most toxic metal and produced the highest oxidative damage to lipids and proteins. At low concentrations (40 µM), this metal decreased viability and completely inhibited cell growth, while higher concentrations were necessary to produce the same toxic effect by Cu(2+), Cr(3+), and Ni(2+). Zn(2+) showed no significant toxicity. Cd(2+) strongly induced damages and altered the function of p53, while Cu(2+), followed by Cr(3+), showed lower percentages of p53-mutant colonies. Our results point towards a relationship between the loss of functional p53 protein and oxidative stress, a mechanism that can be associated with tumor formation induced by heavy metals in mammalian cells. By this adaptation of FASAY developed by us it is possible to easily and rapidly detect mutations caused by metals or other stresses.

Lap4, a vacuolar aminopeptidase I, is involved in cadmium-glutathione metabolism.

In Saccharomyces cerevisiae, accumulation of cadmium-glutathione complex in cytoplasm inhibits cadmium absorption, glutathione transferase 2 is required for the formation of the complex and the vacuolar gamma-glutamyl transferase participates of the first step of glutathione degradation. Here, we proposed that Lap4, a vacuolar amino peptidase, is involved in glutathione catabolism under cadmium stress. Saccharomyces cerevisiae cells deficient in Lap4 absorbed almost 3-fold as much cadmium as the wild-type strain (wt), probably due to the lower rate of cadmium-glutathione complex synthesis in the cytoplasm. In wt, but not in lap4 strain, the oxidized/reduced GSH ratio and the Gtt activity increased in response to cadmium, confirming that the mutant is deficient in the synthesis of the complex probably because the degradation of vacuolar glutathione is impaired. Thus, under cadmium stress, Lap4 and gamma-glutamyl transferase seem to work together to assure an efficient glutathione turnover stored in the vacuole.

Colonic healing after portal ischemia and reperfusion: an experimental study with oxidative stress biomarkers.

This experimental study aimed to evaluate colon healing after portal ischemia followed by reperfusion. Seventy male Wistar rats randomly distributed in four groups were used: Group 1, colonic anastomosis (n = 20); Group 2, portal ischemia-reperfusion (n = 20); Group 3, colonic anastomosis and portal ischemia-reperfusion (n = 20); and Group 4, control (n = 10). In the postoperative period, these rats were re-allocated into subgroups and lipid peroxidation and protein oxidation plasma levels were evaluated on days 1 and 5 by thiobarbituric acid reactive substances (TBARS) and slot-blotting assays, respectively. A segment of the right colon was also removed for collagen analysis. Both malondialdehyde (MDA) and protein carbonyl levels (oxidative markers of lipids and proteins) presented a significant increase after reperfusion in Group 3 on days 1 (P < 0.002) and 5 (P < 0.0001). In this same group, an extensive inflammatory process showing decreased fibroplasia was observed, with deficiency in collagen deposition on both sides of the anastomosis edges. Taken together, these results indicate that portal congestion followed by reperfusion induces an oxidative stress, which impaired the mechanism of colon anastomotic healing.