Genotoxicity and toxicological evaluations of Brazilian red propolis oral ingestion in a preclinical rodent model.

ETHNOPHARMACOLOGICAL RELEVANCE: Brazilian red propolis is a natural product known due to its medicinal properties. The efficacy of this natural resin has been proved; however, few studies report the safety of its oral use. Some toxic effects of natural products may not be expressed in traditional use, and preclinical studies are necessary to guarantee their safety. Health regulatory agency currently requires these non-clinical studies to develop drugs and herbal medicines, including genotoxic and oral toxicity tests. AIM OF THE STUDY: Accomplish the preclinical toxicity studies of Brazilian red propolis extract (BRP) in rodents, including genotoxicity, acute and sub-chronic toxicities. MATERIAL AND METHODS: Genotoxicity assays followed the erythrocyte micronucleus test protocol in a range of 500-2000 mg/kg BRP oral treatment on male Swiss mice. After an up-and-down procedure, acute oral toxicity (single dose) was performed on female Wistar Hannover rats, reaching a 2000 mg/kg BRP oral gavage concentration. Animals were monitored periodically until 14 days and euthanized for a macroscopic necropsy analysis. The sub-chronic oral toxicity test (90 days) was achieved with 1000 mg/kg of BRP on Wistar Hannover rats (males/females). Animals were monitored to evaluated behavioral and biometrical changes, then were euthanized to perfomed hematological, biochemical, and histopathological analyses. RESULTS: No genotoxic effect of the BRP was detected. The acute toxicity indicated no toxicity of a single oral dose of 2000 mg/kg of BRP. The long-term oral toxicity performed with 1000 mg/kg of BRP altered water and food intake and the biometrics, hematological and biochemical parameters. Biochemical alterations in hepatic and renal parameters were detected only in the males. Despite the detection of biochemical alterations, no histopathological changes were detected in the organs of any group. CONCLUSIONS: BRP, at a higher dose, showed no signs of immediate toxicity. However, the obtained results suggest that the chemical composition and the intake of higher doses deserve special attention regarding possible toxicity.

Exploring the anticancer effects of standardized extracts of poplar-type propolis: In vitro cytotoxicity toward cancer and normal cell lines.

Propolis was shown to exert antimicrobial, antioxidant, anti-inflammatory, and anticancer activities. Its composition is influenced by seasonal, climatic and phytogeographic conditions. Further variability derives from the extraction methods. Multi Dynamic Extraction Method (MED) has been recently proposed to improve extracts reproducibility. Here, the cytotoxic/anticancer activity of three MED extracts of poplar-type propolis was assayed on human promyelocytic leukaemia HL60, human monocytic leukaemia THP-1, human osteosarcoma MG63, murine fibroblast L929 and human mesenchymal cells (hMSCs). As far as we are aware of, MG63 cells have never been challenged with propolis before, while few studies have so far addressed the effects of propolis on non-tumor cell lines. Consistent results were observed for all propolis preparations. The extracts turned out mildly cytotoxic toward cancer cells, in particular osteosarcoma cells (IC50: 81.9-86.7 µg/ml). Nonetheless, cytotoxicity was observed also in non-tumor L929 cells, with an even lower IC50. hMSCs demonstrated the lowest sensitivity to propolis (IC50: 258.3-287.2 µg/ml). In THP-1 cells, extracts were found to stimulate apoptosis caspase 3/7 activity. The IC50 values observed with osteosarcoma and leukaemia cells do not support a relevant cytotoxicity (as the figures abundantly exceeded 30 µg/ml), despites some selective activity exhibited with HL60 cells. The results confirm the validity of the extraction method, emphasizing the need to assess the selectivity of the interaction with cancer cells when screening for anticancer-drug candidates.

Engineering electrospun multicomponent polyurethane scaffolding platform comprising grapeseed oil and honey/propolis for bone tissue regeneration.

Essential oils play an important role in reducing the pain and inflammation caused by bone fracture.In this study, a scaffold was electrospun based on polyurethane (PU), grape seed oil, honey and propolis for bone tissue-engineering applications. The fiber diameter of the electrospun PU/grape seed oil scaffold and PU/grape seed oil/honey/propolis scaffold were observed to be reduced compared to the pristine PU control. FTIR analysis revealed the existence of grape seed oil, honey and propolis in PU identified by CH band peak shift and also hydrogen bond formation. The contact angle of PU/grape seed oil scaffold was found to increase owing to hydrophobic nature and the contact angle for the PU/grape seed/honey oil/propolis scaffold were decreased because of hydrophilic nature. Further, the prepared PU/grape seed oil and PU/grape seed oil/honey/propolis scaffold showed enhanced thermal stability and reduction in surface roughness than the control as revealed in thermogravimetric analysis (TGA) and atomic force microscopy (AFM) analysis. Further, the developed nanocomposite scaffold displayed delayed blood clotting time than the pristine PU in the activated prothrombin time (APTT) and partial thromboplastin time (PT) assay. The hemolytic assay and cytocompatibility studies revealed that the electrospun PU/grape seed oil and PU/grape seed oil/honey/propolis scaffold possess non-toxic behaviour to red blood cells (RBC) and human fibroblast cells (HDF) cells indicating better blood compatibility and cell viability rates. Hence, the newly developed electrospun nanofibrous composite scaffold with desirable characteristics might be used as an alternative candidate for bone tissue engineering applications.

Avaliação in-vitro da atividade antifúngica e da citotoxicidade da própolis de copaíba contra espécies do gênero Candida spp / In-vitro evaluation of the antifungal activity and cytotoxicity of copaiba propolis against Candida spp

OBJETIVOS: verificar a atividade antifúngica e a citotoxicidade da própolis de copaíba e de um protótipo de enxaguante bucal contra espécies do gênero Candida spp. METODOLOGIA: o perfil cromatográfico do extrato de própolis foi realizado por Cromatografia Líquida de Ultraeficiência em Fase Reversa (RP-UPLC). A atividade antifúngica do extrato de própolis de copaíba (EPC) e do seu protótipo de enxaguante bucal contra C. albicans, C. tropicalis e C. krusei foi avaliada por microdiluição em caldo e discodifusão em ágar. A citotoxicidade foi verificada pelo ensaio de MTT em fibroblastos 3T3 ¿ L1. RESULTADOS: Fenóis foram os principais compostos encontrados, sendo identificados dentre eles o ácido caféico (ácido fenólico) e canferol (flavonóide). Os valores de CIM foram 156 ug/ml, 312 ug/ml e 625 ug/ml para C. albicans, C. tropicalis e C. krusei respectivamente, indicando atividade antifúngica presente, mas moderada. Os valores das zonas de inibição verificaram inibição do crescimento das leveduras e sugeriram uma atividade fungistática do enxaguante bucal. Em relação aos testes de citotoxicidade, o EPC exerce, em baixas concentrações, um efeito dose dependente sobre a proliferação de fibroblastos 3T3-L1 e pode exercer um efeito regenerador de tecidos. CONCLUSÕES: a própolis investigada apresenta potencial antifúngico moderado contra Candida spp., podendo ser o enxaguante bucal uma opção terapêutica no combate da candidíase oral, já que o seu tratamento é baseado no controle e não na erradicação das leveduras. Estudos futuros sobre a caracterização dos seus compostos químicos, aperfeiçoamento do produto e ensaios clínicos deverão ser realizados

Objectives: verify the antifungal activity and cytotoxicity of copaiba propolis and its mouthwash prototype against Candida spp. Methodology: the chromatographic profile of the propolis extract was perpormed by Reverse Phase Ultra-efficiency Liquid Chromatography (RP-UPLC)....

Formulation and Evaluation of a Mucoadhesive Thermoresponsive System Containing Brazilian Green Propolis for the Treatment of Lesions Caused by Herpes Simplex Type I.

The aim of the present work was to develop a topical delivery system that contains Brazilian green propolis extract (PE-8) to increase efficiency and convenience when applied to herpetic lesions. The cytotoxicity and antiherpetic activity was determined in vitro and in vivo. The PE-8 was added to a system that contained poloxamer 407 and carbopol 934P. The in vitro characterization of the system included rheological studies, texture profile analysis, and mucoadhesion analysis. The PE-8 inhibited the virus during the phase of viral infection, induced virion damage, and exhibited an ability to protect cells from viral infection. The system had advantageous mucoadhesive properties, including a suitable gelation temperature of approximately 25°C for topical delivery, a desirable textural profile, and pseudoplastic behavior. The in vitro release study showed a rapid initial release of the PE-8 in the first 3 h, and the rate of drug release remained constant for up to 24 h. The system appeared to be macroscopically and microscopically innocuous to skin tissue. Therefore, the mucoadhesive thermoresponsive system that contained the PE-8 appears to be promising for increasing bioavailability and achieving prolonged release of the PE-8 when applied to skin lesions caused by herpes simplex virus type 1.

Acute and sub-acute oral toxicity of Brazilian red propolis in rats.

ETHNOPHARMACOLOGICAL RELEVANCE: Propolis is a bee product widely used in folk medicine due to its numerous pharmacological properties. However, samples from different regions can differ in chemical composition, effectiveness, and side effects. Despite the widespread use of Brazilian red propolis, which is an isoflavone-rich variety, its toxicity has not been carefully studied. AIMS OF THE STUDY: To assess the acute and sub-acute toxicity of the hydroethanolic extract of red propolis (HERP) administered orally to rats. MATERIALS AND METHODS: HERP for the acute (300mg/kg) and sub-acute (10, 100 and 200mg/kg) toxicity studies was administered orally to rats according to OECD Guidelines 420 and 407, respectively. Clinical signs were identified, and hematological and biochemical analyses were performed. Water and food uptake as well as body and organ weights of animals were recorded. RESULTS AND CONCLUSIONS: The acute study revealed no lethal effects at 300mg/kg of HERP, but toxic signs were observed, as HERP had an LD50 of more than 300mg/kg, indicating a warning. The most toxic signals in sub-acute studies were observed in males at a dose of 200mg/kg HERP. These results suggest estrogen-like activity, possibly from the isoflavones in HERP.

Association of water extract of green propolis and liposomal meglumine antimoniate in the treatment of experimental visceral leishmaniasis.

This work investigated the use of water extract of green propolis (WEP) and its association with free or liposomal meglumine antimoniate (MA) for the treatment of murine visceral leishmaniasis. Mice infected with Leishmania infantum were treated with oral doses of WEP associated or not with a single dose of liposomal MA by intraperitoneal route. Parasite burden was assessed in the liver and spleen by limiting dilution assay, and alterations in the spleen cellular phenotype were evaluated by flow cytometry. Tissue damage was assessed by determination of biochemical markers of the liver, heart, and kidney function and histopathological analysis of the liver and spleen. Our data showed that treatment with WEP was able to reduce parasite load in the liver but not in the spleen. On the other hand, liposomal MA reduced parasite load in both organs. Unexpectedly, there was no synergism with the combination of WEP and liposomal MA in reducing the parasite load. The histopathological analysis showed that administration of WEP, liposomal MA, or their association was able to protect the liver and spleen from lesions caused by infection. No alteration in the profile of spleen cells by flow cytometry or in the liver, heart, and kidney functions by biochemical markers due to any of the treatments was observed. These results demonstrate that although WEP was able to significantly reduce the liver parasite load, its association with liposomal MA did not lead to significant improvement in reducing parasite load. On the other hand, treatment with WEP and/or liposomal MA protected the liver and spleen from lesions caused by the infection.

Propolis and its constituent caffeic acid suppress LPS-stimulated pro-inflammatory response by blocking NF-κB and MAPK activation in macrophages.

ETHNOPHARMACOLOGICAL RELEVANCE: Propolis is a bee product with numerous biological and pharmacological properties, such as immunomodulatory and anti-inflammatory activities. It has been used in folk medicine as a healthy drink and in food to improve health and prevent inflammatory diseases. However, little is known about its mechanism of action. Thus, the goal of this study was to verify the antioxidant activity and to explore the anti-inflammatory properties of propolis by addressing its intracellular mechanism of action. Caffeic acid was investigated as a possible compound responsible for propolis action. MATERIALS AND METHODS: The antioxidant properties of propolis and caffeic acid were evaluated by using the 2,2-Diphenyl-1-picrylhydrazyl free radical (DPPH) scavenging method. To analyze the anti-inflammatory activity, Raw 264.7 macrophages were treated with different concentrations of propolis or caffeic acid, and nitric oxide (NO) production, a strong pro-inflammatory mediator, was evaluated by the Griess reaction. The concentrations of propolis and caffeic acid that inhibited NO production were evaluated on intracellular signaling pathways triggered during inflammation, namely p38 mitogen-activated protein kinase (MAPK), c-jun NH2-terminal kinase (JNK1/2), the transcription nuclear factor (NF)-κB and extracellular signal-regulated kinase (ERK1/2), through Western blot using specific antibodies. A possible effect of propolis on the cytotoxicity of hepatocytes was also evaluated, since this product can be used in human diets. RESULTS: Caffeic acid showed a higher antioxidant activity than propolis extract. Propolis and caffeic acid inhibited NO production in macrophages, at concentrations without cytotoxicity. Furthermore, both propolis and caffeic acid suppressed LPS-induced signaling pathways, namely p38 MAPK, JNK1/2 and NF-κB. ERK1/2 was not affected by propolis extract and caffeic acid. In addition, propolis and caffeic acid did not induce hepatotoxicity at concentrations with strong anti-inflammatory potential. CONCLUSIONS: Propolis exerted an antioxidant and anti-inflammatory action and caffeic acid may be involved in its inhibitory effects on NO production and intracellular signaling cascades, suggesting its use as a natural source of safe anti-inflammatory drugs.

Induction of oxidative DNA damage by flavonoids of propolis: its mechanism and implication about antioxidant capacity.

Propolis from beehives is commonly used as a home remedy for various purposes including as a topical antiseptic. Despite its antioxidant capacity, propolis induces oxidative DNA damage. In exploring the underlying mechanism, we found that the induction of oxidative DNA damage is attributed to the hydrogen peroxide (H(2)O(2)) produced by propolis. The formation of H(2)O(2) can take place without the participation of cells but requires the presence of transition metal ions such as iron. Flavonoids such as galangin, chrysin, and pinocembrin that are commonly detected in propolis have the capacity to induce oxidative DNA damage, and that capacity correlates with the production of H(2)O(2), suggesting the involvement of flavonoids in propolis in this process. On the basis of these results, we propose that the flavonoids of propolis serve as temporary carriers of electrons received from transition metal ions that are relayed to oxygen molecules to subsequently generate superoxide and H(2)O(2). In addition, propolis induces oxidative DNA damage that is subject to repair, and propolis-treated cells show a lower level of DNA damage level when challenged with another oxidative agent such as amoxicillin. This is reminiscent of an adaptive response that might contribute to the beneficial effects of propolis.

Activity of Cuban propolis extracts on Leishmania amazonensis and Trichomonas vaginalis.

In this paper we analyzed the antiprotozoal effects of eighteen Cuban propolis extracts (brown, red and yellow type) collected in different geographic areas, using Leishmania amazonensis (as a model of intracellular protozoa) and Trichomonas vaginalis (as a model of extracellular protozoa). All evaluated propolis extracts caused inhibitory effect on intracellular amastigotes of L. amazonensis. However, cytotoxicity on peritoneal macrophages from BALB/c mice was observed. Only five samples decreased the viability of T. vaginalis trophozoites at concentrations lower than 10 microg/mL. No correlation between the type of propolis and antiprotozoal activity was found. Cuban propolis extracts demonstrated activity against both intracellular and extracellular protozoa model, as well as the potentialities of propolis as a natural source to obtain new antiprotozoal agents.

Delay of gap filling during nucleotide excision repair by base excision repair: the concept of competition exemplified by the effect of propolis.

Nucleotide excision repair (NER) consists of a sequence of events including DNA damage recognition, excision of the damage containing oligonucleotide, gap filling, and ligation. We found that gap filling during the repair of ultraviolet (UV)C-induced DNA lesions was inhibited by various compounds, e.g., amoxicillin, and mixtures, e.g., propolis, the materials that could induce oxidative DNA damage in serum-supplemented cell cultures. Such inhibitory effect was also demonstrated by the immunostaining experiment and host cell reactivation assay. In this study, we link the repair of oxidative DNA damage with the inhibition of gap filling. Our experimental evidence includes the following: (1) induction of oxidative DNA damage and inhibition of gap filling were quantitatively correlated; (2) although the repair of UV-induced DNA damage was delayed in the presence of propolis, the repair of propolis-induced oxidative DNA damage proceeded regardless of preexposure to UV radiation; (3) inhibition of gap filling by propolis was absent in base excision repair (BER)-deficient cells; (4) suppression of propolis-induced oxidative DNA damage by ß-carotene abolished the inhibition of gap filling; and (5) inhibition of gap filling was also found with typical BER-inducing agents such as hydrogen peroxide, menadione, and methyl methanesulfonate. We propose that competition may occur between NER and BER, which results in delay of gap filling. Our study reveals the dominancy of BER over NER.

Epimedium polysaccharide and propolis flavone can synergistically inhibit the cellular infectivity of NDV and improve the curative effect of ND in chicken.

Four prescriptions, epimedium flavone plus propolis flavone (EF-PF), epimedium flavone plus propolis extracts (EF-PE), epimedium polysaccharide plus propolis flavone (EP-PF) and epimedium polysaccharide plus propolis extracts (EP-PE), were prepared and their antiviral effects were compared. In test in vitro, the four prescriptions within safety concentration scope and Newcastle disease virus (NDV) were added into cultured chick embryo fibroblast (CEF) in three modes, pre-, post-adding drug and simultaneous-adding drug and virus after being mixed, the cellular A(570) values were determined by MTT method and the highest virus inhibitory rates were calculated to compare the antiviral activity of four prescriptions. In test in vivo, three hundred 21-day-old chickens were randomly divided into 6 groups and challenged with NDV except for blank control group. After 24h the chickens in four prescription groups were injected with corresponding drugs respectively, in virus control and blank control groups, with physiological saline, once a day for three successive days. On days 3, 7 and 14 after challenge, the serum antibody titer was determined. On day 15 after challenge, the mortality, morbidity and cure rate in every group were counted. The results showed that the most of A(570) values in EP-PF group were numberly or significantly larger than those of the corresponding virus control group and the highest virus inhibitory rates of EP-PF at optimal concentration group were the highest among four prescription groups in three drug-adding modes, which confirmed that EP-PF could significantly inhibit the infectivity of NDV to CEF, its action was stronger than those of other three prescriptions; in EP-PF group, the antibody titers and cure rate were the highest and the mortality and morbidity were lowest presenting numberly or significantly differences in comparison with other three prescription groups. These results indicated that epimedium polysaccharide and propolis flavone possessed synergistical action, EP-PF prescription could significantly inhibit the cellular infectivity of NDV, improve the curative effect of ND in chicken and would be expected to exploit into a new-type antiviral drug.

In vitro cytotoxic activity of Baccharis dracunculifolia and propolis against HEp-2 cells.

Baccharis dracunculifolia is the most important vegetal source of propolis in southeast Brazil, and researchers have been investigating its biological properties. Propolis is a complex resinous hive product collected by bees from several plants, showing a very complex chemical composition. It has been employed since ancient times due to its therapeutic properties, such as antimicrobial, anti-inflammatory, antioxidant, immunomodulatory and antitumour activities, among others. The goal of this work was to compare the cytotoxic action of B. dracunculifolia, propolis and two isolated compounds (caffeic and cinnamic acids) on human laryngeal epidermoid carcinoma (HEp-2) cells in vitro. These cells were incubated with different concentrations of each variable, and cell viability was assessed by the crystal violet method. Lower concentrations of B. dracunculifolia (extract and essential oil), propolis, as well as caffeic and cinnamic acids, showed no cytotoxic activity against HEp-2 cells. On the other hand, elevated concentrations (50 and 100 µg per 100 µL) exerted a cytotoxic action, and propolis showed a more efficient action than its vegetal source and isolated compounds. Further investigation is still needed in order to explore the potential of these variables as antitumour agents and to understand their mechanisms of action.

Mutagenic and genotoxic effects of Baccharis dracunculifolia (D.C.).

Baccharis dracunculifolia (D.C.) (Asteraceae), a native plant to Brazil known as "vassourinha" or "alecrim-do-campo", is the most important botanical source of a Brazilian propolis called green propolis. The leaf extracts of this plant have been used to treat liver and digestive disorders. It has been recognized that green propolis can induce mutagenic effects at high doses, but no study reporting possible mutagenic effects by Baccharis dracunculifolia extracts in the maximum tolerated dose has been conducted. The aim of the present study was to investigate the genotoxic and mutagenic effects of this plant in vivo. Adult CF-1 mice were treated with 0.5g/kg, 1.0g/kg or 2.0g/kg of an aqueous extract of Baccharis dracunculifolia by gavage for 3 consecutive days. Blood and liver samples were collected to detect DNA damage using the comet assay, while bone marrow samples were used to assess chromosome mutations by the micronucleus test. The extract increased the DNA damage in blood and liver tissues and the frequency of micronucleus in bone marrow. These findings suggest genotoxic and mutagenic effects of Baccharis dracunculifolia comparable to green propolis in mice.

The effect of propolis in experimental Acanthamoeba keratitis.

PURPOSE: To examine the effect of propolis in a rat model of Acanthamoeba keratitis and to determine its in vitro cytotoxicity in cultured corneal epithelial cells. METHODS: Eighteen Wistar albino rats were used. Cultured corneal epithelial cells obtained from two healthy rats for in vitro cytotoxicity of propolis. Corneal stromal inoculation was performed in 16 rats with amoebic culture containing 1 x 10(6) amoeba/mL. Rats with Acanthamoeba keratitis 5 days later after the inoculation were divided randomly into four groups, and eight eyes of each group were treated with study drugs. The propolis, chlorhexidine (CHX), propolis plus CHX and control eyes were treated with topical propolis, 0.002% CHX, propolis plus 0.002% CHX and lubricant eye drops, respectively. The study drugs were instilled every one hour for 10 days. All eyes were examined and keratitis graded by slit-lamp biomicroscopy on days 2, 5 and 10 during the administration of the study drugs. After the completion of keratitis grading, all the 16 rats were humanely killed and their corneas were excised and used for Acanthamoeba culture to evaluate presence of Acanthamoeba growth after treatment 14 days later. RESULTS: Concentrations of propolis higher than 7.81 mg/mL cause damage to corneal epithelial cells in the experiment of in vitro cytotoxicity of propolis on corneal epithelial cells. The keratitis grade on day 2 in the CHX eyes was significantly lower than that in the control eyes (P < 0.05). The keratitis grades on days 5 and 10 in the propolis, CHX and propolis plus CHX eyes were significantly lower compared with those on days 5 and 10 in the control eyes (P < 0.05). In the propolis eyes, the keratitis grade on day 5 was significantly lower than that on day 2 (P < 0.05), and it was significantly lower on day 10 compared with that on day 5 (P < 0.05). In the CHX and propolis plus CHX eyes, the keratitis grade on day 10 was significantly lower compared with that on days 2 and 5 (P < 0.05). In the control eyes, there was no significant difference in the keratitis grades on days 2, 5 and 10 (P > 0.05). The culture positivity at Acanthamoeba growth after treatment experiment in the propolis, CHX and propolis plus CHX eyes was significantly lower than that in the control eyes (P < 0.05). CONCLUSIONS: We suggest that propolis had amoebicidal properties in this rat model of Acanthamoeba keratitis. Further investigations to evaluate the antimicrobial activity of the individual fractions of the resin could yield more information about its mechanism of action in treating this disease.

Analysis of propolis from Baccharis dracunculifolia DC. (Compositae) and its effects on mouse fibroblasts.

This paper confirms Baccharis dracunculifolia DC. (Compositae) as the main botanical source of the propolis from southeastern Brazil (state of São Paulo) investigated to ascertain specific biological activity in relation to mouse NIH-3T3 fibroblasts, skin cells directly involved in the cicatrization processes. Flavonoid and total phenolic compounds were determined by spectrophotometry, and chemical composition by HPLC; the chromatographic profile, characterized largely by flavonoids and aromatic acids, was found to be qualitatively similar to that of Baccharis dracunculifolia DC. The adsorption of phenolic compounds in the propolis to skin powder was also investigated, and 68% of these compounds adsorbed to the skin powder. At concentrations from 0.12 to 7.81 microg/ml, the propolis revealed no statistical significant differences from its control solutions; however, at concentrations of 31.25 microg/ml or more, the propolis was toxic to NIH-3T3 cells. Thus, the propolis from Baccharis dracunculifolia DC. (Compositae) presents an in vitro concentration-dependent toxicity on mouse NIH-3T3 fibroblasts.

Treatment of Trypanosoma cruzi-infected mice with propolis promotes changes in the immune response.

Ethanol extract of Bulgarian propolis (Et-Blg) was administered by oral route in doses ranging from 25 to 100mg/kg body weight in experimental Trypanosoma cruzi-infected Swiss mice. Treatment with 50mg Et-Blg/kg body weight/day led to a decrease in parasitemia and showed no hepatic or renal toxic effect. Treatment with Et-Blg led to a decrease in the spleen mass and modulated the initial inflammatory reaction as demonstrated by analysis of the leukocyte profile in peripheral blood, quantification of T cells subsets, and phenotypic markers in the spleen. Preferential expansion of CD8(+) and partial inhibition in the increase of CD4(+)CD69(+) and CD8(+)CD69(+) in CD4(+)CD44(+) and CD8(+)CD44(+) and in the decrease of CD8(+)CD62L in Trypanosoma cruzi-infected mice were also observed. Taken together, our data indicate that treatment of Trypanosoma cruzi-infected mice with Et-Blg interferes with the basic properties of immune cells.

Evaluation of the cytotoxicity, genotoxicity, mutagenicity, and antimutagenicity of propolis from Tucuman, Argentina.

This study evaluates the toxic, genotoxic/mutagenic, and antimutagenic effects of propolis extract from Amaicha del Valle, Tucumán, Argentina. The cytotoxicity assays carried out with the lethality test of Artemia salina revealed that the LD50 was around 100 microg/mL. Propolis extracts showed no toxicity to Salmonella typhimurium TA98 and TA100 strains and Allium cepa at concentrations that have antibiotic and antioxidant activities. Otherwise, for the testing doses, neither genotoxicity nor mutagenicity was found in any sample. The propolis extracts were able to inhibit the mutagenesis of isoquinoline (IQ) and 4-nitro o-phenylenediamine (NPD) with ID50 values of 40 and 20 microg/plate, respectively. From this result, the studied propolis may be inferred to contain some chemical compounds capable of inhibiting the mutagenicity of direct-acting and indirect-acting mutagens. A compound isolated from Amaicha del Valle propolis, 2',4'-dihydroxychalcone, showed cytotoxic activity (LC50 values of 0.5 microg/mL) but was not genotoxic or mutagenic. Furthermore, this compound was able to inhibit the mutagenicity of IQ (ID50 values of 1 microg/plate) but was unable to inhibit the mutagenicity of NPD. Our results suggest a potential anticarcinogenic activity of Amaicha del Valle propolis and the chalcone isolated from it.

Effect of Brazilian green propolis on the production of reactive oxygen species by stimulated neutrophils.

The activity of a crude ethanol extract of green propolis and its fractions obtained by partition with hexane, chloroform and n-butanol was assessed on luminol- and lucigenin- enhanced chemiluminescence (CL) produced by rabbit neutrophils (PMNs) stimulated with particles of serum-opsonized zymosan (OZ). The total production of reactive oxygen species (ROS) by PMNs was measured by the luminol-enhanced CL (LumCL) assay and the production of the superoxide anion (O2*-) by the lucigenin-enhanced CL (LucCL) assay. All evaluated propolis samples had inhibitory effect on the LumCL and LucCL, which was concentration dependent. The n-butanol and chloroform fractions displayed the highest inhibitory effect on the LumCL produced by PMNs stimulated with OZ, in comparison with both the ethanol extract and the hexane fraction. Besides, the hexane fraction was the one which presented the highest effect for the LucCL assay. Some isolated compounds from both n-butanol and chloroform fractions were also assessed, including kaempferide, isosakuranetin, aromadendrine-4'-methyl-ether and 3-prenyl-p-coumaric acid. Kaempferide presented the highest inhibitory effect on the LumCL in comparison with the other compounds. Moreover, under the conditions assessed, the studied green propolis samples and isolated compounds were not toxic to the rabbit PMNs.

Diverse biological activities of healthy foods.

Diverse biological activities of 7 healthy foods [powdered pine needle, citrate-fermented sesame, powdered coffee, royal jelly, propolis, pollen and white sesame oil (extracted by super critical state (40 degrees C, 350 atmospheric pressure))] were investigated. The pine needle, sesame and powdered coffee was also extracted successively by ethanol and hot water, and lyophilized. The pine needle and coffee extracts, and propolis showed higher in vitro cytotoxic, bactericidal and oxidation activity, as compared with other 4 lipophilic healthy foods. However, propolis showed slightly lower, but significant cytotoxic and bactericidal activity with much reduced oxidation potential. ESR spectroscopy demonstrated that the cytotoxic activity of these extracts was closely related to their radical generation and O2- scavenging activities. Healthy food components may have both pro-oxidant and anti-oxidant properties. Pre-treatment of mice with pine needle, sesame or powdered coffee extract significantly reduced the lethality of bacterial infection, possibly due to their host-mediated action. These extracts failed to reduce the cytophatic effect of HIV-1 (human immunodeficiency virus) infection in MT-4 cells. No apparent acute toxicity was detected in mice by oral administration of 10 g/kg of these extracts. This data suggest the medicinal efficacy of healthy foods.