Genetic toxicology evaluation of essential oil of Alpinia zerumbet and its chemoprotective effects against H(2)O(2)-induced DNA damage in cultured human leukocytes.

Essential oil (EO) of Alpinia zerumbet leaves, at non-toxic concentrations (50-300 µg/mL), did not induce genotoxicity in human leukocytes. However, at the highest concentration (500 µg/mL) tested caused a reduction in cell proliferation and viability, and an increase in DNA damage. Moreover, in vivo experiments showed that EO (400 mg/kg) did not exert mutagenicity on peripheral blood cells and bone marrow in mice. In DPPH test, EO showed scavenging effects against DPPH radicals, and other free radicals (determination of intracellular GSH and lipid peroxidation assays). Furthermore, EO was able to reduce the intracellular levels of ROS, and prevented leukocytes DNA against oxidative damage. The ability of EO to reduce H(2)O(2) toxicity was observed only when cells were treated with EO during and after exposure to H(2)O(2). With the co- and post-treatment procedures, EO decreased the frequency of apoptotic and micronucleated leukocytes as well DNA strand breaks. However, a synergistic effect was observed in cultures exposed to 500 µg/mL EO. In conclusion, EO at concentrations up to 300 µg/mL or doses up to 400mg/kg are not mutagenic in leukocytes and in mice, but do have antioxidative and protective effects against the cytotoxicity and clastogenesis induced by H(2)O(2).

Preclinical genotoxicology of nor-ß-lapachone in human cultured lymphocytes and Chinese hamster lung fibroblasts.

Nor-ß-lapachone has shown several biological properties. Regarding cytotoxic activity against cancer cell lines, it has been recognized as an important prototype. However, quinonoid drugs present a major challenge because of their toxicity. In this study, we evaluated the cytotoxicity and genetic toxicity of nor-ß-lapachone in human lymphocytes and HL-60 leukemia cells and murine V79 fibroblasts, to shed some light on its selectivity toward cancer cells. As measured by MTT test, exposure of V79 cells to nor-ß-lapachone resulted in a weak cytotoxicity (IC(50) = 13.41 µM), and at a concentration up to 21.9 µM, no cytotoxic effect was observed in lymphocytes, while in HL-60 cells, nor-ß-lapachone elicited significantly greater cytotoxicity (IC(50) = 1.89 µM). Cultures coexposed to GSH-OEt showed an increased viability, which may indicate a neutralization of ROS generated by quinonoid treatment. In fact, only the highest concentrations of nor-ß-lapachone (10 or 20 µM) caused an increase in oxidative stress in nontumor levels cells as measured by TBARS and nitrite/nitrate detection. This was accompanied by an alteration in intracellular thiol content. However, NAC pre-exposure restored the redox equilibrium of the cells and the concentration of thiol levels to control values. Nor-ß-lapachone at 2.5 and 5 µM failed to induce DNA damage in nontumor cells, but at the highest concentrations tested, it induced single and double DNA strand breaks and increased the frequency of chromosomal aberrations. Interestingly, these damages were prevented by NAC pretreatment or exacerbated by prior exposure to the GSH-depleting agent 1-bromoheptane. In electrochemical experiments, nor-ß-lapachone at the same concentrations as those used in genotoxic tests did not damage DNA directly, but at the highest concentration tested (200 µM), it caused a very weak DNA interaction. Corroborating electrochemical data, oxidative modifications of DNA bases were observed, as checked by DNA repair enzymes EndoIII and FPG, which reinforced the indirect actions caused by nor-ß-lapachone through ROS generation and not via DNA intercalation. The DNA repair capacities were higher for nontumor cells than for leukemia cells, which may be related to the selective cytoxicity of nor-ß-lapachone toward cancer cells. Our data suggest that ROS play an important role in nor-ß-lapachone toxicity and that its DNA-damaging effect occurs only at concentrations several times higher than that needed for its antiproliferative effect on cancer cells.

Biomonitoring of rural workers exposed to a complex mixture of pesticides in the municipalities of Tianguá and Ubajara (Ceará state, Brazil): genotoxic and cytogenetic studies.

In recent years, the use of pesticides in agriculture has been steadily increasing, and associations between exposure to agricultural chemicals and DNA damage and cancer have been reported. Brazil is one of the world leaders in pesticide use; however, studies that evaluate the impact of pesticide exposure on cancer incidence and mortality are very scarce in the Brazilian population. The alkaline comet assay and the chromosome aberration (CA) test were used to evaluate primary DNA damage in the peripheral blood lymphocytes of workers exposed to a complex mixture of pesticides in two small rural communities in the municipalities of Tianguá and Ubajara, located in the western part of Ceará State (Northeast Brazil), which are among the largest agricultural areas of the state. The comet assay showed that the damage index and damage frequency observed in the exposed groups were significantly higher in relation to the controls (P < 0.05). On the other hand, no differences were detected regarding structural and numerical CAs in the communities evaluated. Additionally, the observed levels of DNA strand breaks and frequencies of CAs, stratified for exposure time, were not statistically different for individuals of either rural community. Our results suggest that the damages caused by pesticides in our study area were not great enough to induce permanent mutations or to interfere with mitotic apparatus formation; minimal pesticide damages could have undergone cellular repair, explaining the absence of structural and numerical CAs.

Synthesis of novel α-santonin derivatives as potential cytotoxic agents.

Ten novel α-santonin derivatives have been synthesized as cytotoxic agents. The in vitro antitumor activity of these compounds has been evaluated against cancer cells lines. Structure-activity relationships indicate that α-methylene-γ-lactone and endoperoxide functionalities play important roles in conferring cytotoxicity. The compounds 2-4, possessing the α-methylene-γ-lactone group showed IC50 values between 5.70 and 16.40 µM. Mixture of isomers 5 and 6, with the α-methylene-γ-lactone and endoperoxide functionalities, displayed the greatest activity, with IC50 values between 1.45 and 4.35 µM. The biological assays conducted with normal cells revealed that the compounds 2, 5 and 6 are selective against cancer cells lines tested. Bioactive lactones described herein and in our previous report did not cause disruption of the cell membrane in mouse erythrocytes.

Synthesis and cytotoxicity screening of substituted isobenzofuranones designed from anacardic acids.

This work is part of a large program, which seeks to discover new antitumor isobenfuranones designed from anacardic acids. The synthetic strategy for the construction of the title compounds takes into consideration the use of inexpensive anacardic acids (2), the major natural cashew (Anacardium occidentale) nut-shell phenolic lipid, and features one-pot construction of fused-ring aromatic gamma-lactones, phthalides. The cytotoxicity screening in different human cancer cell lines (HL-60 leukemia, SF295 glioblastoma and MDA-MB435 melanoma) by the MTT assay showed that acyclic precursor (6), and isobenfuranones (1a and 1b) are active compounds. Interestingly, 1a exhibits significant antiproliferative effect against HL-60 cells and moderate activity against SF295 and MDA-MB435 cell lines. Analysis of mechanisms involved in the cytotoxic activity showed that active compounds were leading to DNA damage, triggering apoptosis or necrosis induction.

Cytotoxic profile of natural and some modified bufadienolides from toad Rhinella schneideri parotoid gland secretion.

Cutaneous secretions of toad species are an important source of bufadienolides, compounds that exhibit interesting structural features and biopharmacological properties. Here we describe the isolation of bufadienolides from the Brazilian toad Rhinella schneideri parotoid glands secretion, including: marinobufagin (1), bufalin (2), telocinobufagin (3), hellebrigenin (4), and the atypical 20S,21R-epoxymarinobufagin (5) besides the widespread beta-sitosterol (6). Starting from natural bufadienolides four derivatives were prepared: 3beta-acetoxy-marinobufagin (7), 3beta-acetoxy-bufalin (8), 3beta-acetoxy-telocinobufagin (9), and 3beta-acetoxy-20S,21R-epoxymarinobufagin (10). The cytotoxic evaluation showed that all natural bufadienolides and their derivatives exhibited moderate to strong activity against human HL-60, SF-295, MDA-MB-435, and HCT-8 cancer cell strains without hemolysis of mouse erythrocytes. The acetylated bufadienolides (7-9) and the epoxide 10 showed lesser peripheral blood lymphocytes (PBLs) inhibitory activity than their precursors, suggesting that chemical modifications on such compounds can play an important role on the modulation of their cytotoxic profile.

Synthesis and cytotoxic activity of alpha-santonin derivatives.

Ten alpha-santonin derivatives were synthesized in moderate to high yields. Four derivatives namely 10alpha-acetoxy-3-oxo-1,7alphaH,6,11betaH-guai-4-en-6,12-olide (2), isofotosantonic acid (3), 10alpha-hydroxy-3-oxo-1,7alphaH,6,11betaH-guai-4-en-6,12-olide (4), and lumisantonin (5), were prepared by different photochemical reactions using alpha-santonin (1) as starting material. These transformations were carried out in either anhydrous acetic acid, acetic acid/water (1:1 v/v) or acetonitrile, using different types of reactors and ultraviolet light sources. Treatment of alpha-santonin (1) with lithium diisopropyl amide (LDA) followed by capture of the organolithium with phenyl selenium chloride produced the compound 3-oxo-7alphaH,6betaH,11-(phenylselenyl)-eudesma-1,4-dien-6,12-olide (6). Subsequent treatment of compound 6 with hydrogen peroxide gave 3-oxo-7alphaH,6betaH-eudesma-1,4,11-trien-6,12-olide (7). Photochemical reaction of compound 7 led to the formation of 11,13-dehydrolumisantonin (8) and 10alpha-acetoxy-3-oxo-1,7alphaH,6betaH-guai-4,11-dien-6,12-olide (9). Sodium borohydride reduction of compounds 2 and 4 afforded the derivatives 10alpha-acetoxy-3beta-hydroxy-1,7alphaH,6,11betaH-guai-4-en-6,12-olide (10) and 3beta,10alpha-hydroxy-1,7alphaH,6,11betaH-guai-4-en-6,12-olide (11). The cytotoxicity of the synthesized compounds were evaluated against the cancer cell lines HL-60 (leukemia), SF-295 (central nervous system), HCT-8 (colon), MDA-MB-435 (melanoma), UACC-257 (melanoma), A549 (lung), OVACAR-8 (ovarian), A704 (renal), and PC3 (prostate). The compounds with higher activity, possessing IC(50) values in the range of 0.36-14.5 microM, showed as common structural feature the presence of an alpha-methylidene-gamma-butyrolactone moiety in their structures. The biological assays conducted with normal cells (PBMC) revealed that the compounds are selective against cancer cell lines. The modified lactones seem to be interesting lead structures towards anticancer drug development.