The anticancer activity of propolis

Propolis and its compounds have been the subject of many studies due to their antimicrobial and antiinflammatory activity; however, it is now known that they also possess antitumor properties. This review aims to summarize the results of studies on the mechanism of activity of propolis and its active compounds such as CAPE and chrysin in the apoptotic process, and their influence on the proliferation of cancer cells. Our review shows that propolis and its presented compounds induce apoptosis pathways in cancer cells. The antiproliferative effects of propolis, CAPE or chrysin in cancer cells are the result of the suppression of complexes of cyclins, as well as cell cycle arrest. The results of in vitro and in vivo studies suggest that propolis, CAPE and chrysin may inhibit tumor cell progression and may be useful as potential chemotherapeutic or chemopreventive anticancer drugs.     

The assessment of anti-tumoral activity of polysaccharide extracted from terrestrial filamentous fungus

Fungal polysaccharides are well-known for the medicinal properties such as antitumor and immunomodulating effects. Hence, this study evaluated antitumor effects of polysaccharide extracted from Fusarium sp. isolated from soil samples of Karaj district, Alborz, Iran along with its taxonomic study. The filamentous fungus strain FK1 was isolated from the soil sample of Karaj, Iran. The strain was identified based on cultural, morphological and 18 S rRNA gene parameters as Fusarium. Further, the strain Fusarium was cultured in fermented broth of modified (PDB) for 10  days at 25 °C. The polysaccharide of strain FK1 was extracted from the mycelium free supernatant by boiling water method and evaluated for antitoxicity effect on two human cancer cell lines: HeLa cell line and Lymphoblastoid cell line (LCL) by MTT method. Findings revealed that water-extracted from mycelia polysaccharide of strain FK1 had the highest cytotoxicity effect against LCL which is the cause of B lymphocyte cancer, at 50  μg/ml concentration dose (114 ± 1.63) followed by 100  μg/ml (105 ± 0.57) and 10  μg/ml (104 ± 0.57), while it did not have a considerable effect on HeLa cell line. Fusarium could be alternative sources as an antitumor component.     

Autophagy-mediated anti-tumoral activity of imiquimod in Caco-2 cells

Imiquimod (IMQ) is recognized as a topical immune response modifier compound that enhances immune responses with anti-viral and anti-tumoral activities. Its anti-tumoral effects have been previously demonstrated in a variety of cancer cells, and were identified as indirect responses mediated by the immune modulation of cutaneous dendritic cells. Recently, the pro-apoptotic activities of IMQ occurring via the modulation of bcl-2 family have been reported in several tumor cells. In this study, we first observed IMQ-initiated autophagy determined by vesicular organelle formation and the generation of LC3-II in Caco-2 human colonic adenocarcinoma cells, which expressing functional TLR7. Additionally, IMQ-induced autophagy resulted in cell death occurring independently of molecular changes of apoptotic markers. Loxoribine also induced autophagy and autophagy-induced cell death at less potent than IMQ. Moreover, the activation of autophagy by rapamycin induced enhanced cell death in TNF-alpha-treated Caco-2 cells, which were autophagy and cell death-resistant. Our results led us to conclude that IMQ exerts a direct effect on the anti-tumoral activity of Caco-2 cells via autophagy-induced cell death. In conclusion, the modulation of autophagy might be applied in a potential cancer therapy for the treatment of colon cancer cells.     

The contribution of alkylation to the activity of quinone antitumor agents

Studies have shown that the quinone group can produce tumor cell kill by a mechanism involving active oxygen species. This cytotoxic activity can be correlated with the induction of DNA double strand breaks and is enhanced by the ability of the quinone compound to bind to DNA by alkylation. The cytotoxic activity and the production of DNA damage by model quinone antitumor agents were compared in L5178Y cells, sensitive and resistant to alkylating agents, to assess the contribution of alkylation to the activity of these agents. The resistant L5178Y/HN2 cells were found to be two fold and six fold more resistant to the alkylating quinones, benzoquinone mustard and benzoquinone dimustard, respectively, than parent L5178Y cells. In contrast, the L5178Y/HN2 cells showed no resistance to the nonalkylating quinones, hydrolyzed benzoquinone mustard and bis(dimethylamino)benzoquinone. The alkylating quinones produced approximately two fold less cross-linking in L5178Y/HN2 cells compared with L5178Y sensitive cells. DNA double strand break formation by hydrolyzed benzoquinone mustard and bis(dimethylamino)benzoquinone was not significantly different in sensitive and resistant cells. However, the induction of double strand breaks by the alkylating quinones benzoquinone mustard and benzoquinone dimustard was reduced by 5-fold and 15-fold, respectively, in L5178Y/HN2 cells. These results show that the alkylating activity of the alkylating quinones cannot directly explain all of the enhanced cytotoxic activity of these agents. Furthermore, they provide strong evidence that the enhanced formation of DNA double strand breaks by alkylating quinone agents is directly related to the ability of these agents to bind to DNA. This increased formation of strand breaks may account for the enhanced cytotoxic activity of the alkylating quinones.     

The inhibitory activity of typified propolis against Enterococcus species

Propolis, a natural bee product widely used for its antimicrobial activity, was tested against isolates of Enterococcus from humans, pig-tailed macaques, isolates of refractory endodontic treatment cases, and isolates from Lactobacillus-containing food supplements. Typification of the propolis was performed by high-performance liquid chromatography (HPLC) by which prenylated compounds, cinnamic acid derivatives, and flavonoids were detected as the main constituents. Minimum inhibitory concentrations (MIC) were determined using the agar dilution method. All human and animal Enterococcus isolates demonstrated MIC values of 1600 microg/mL. Enterococcal species of human and animal origin were inhibited by propolis. Particularly, human isolates of E. faecium and E. faecalis of refractory endodontic treatment cases were susceptible to propolis of Brazilian origin.     

Antifungal activity of Apulia region propolis

A study was carried out to assess the in vitro antifungal activity of some natural Apulian propolis extracts of different origin. Their antifungal activity was compared to the antifungal activity of conifers and commercial propolis extracts. All extracts revealed antifungal activity against dermatophytes and Candida species. The antifungal activity differences found depended on the origin of the propolis and the solvent used for extraction. The best antifungal activity was given by the 'Orimini' propolis. The antifungal activity may have been influenced by the presence of different cinnamic and flavonoid components and their different concentration in the extracts. Further investigations are needed to validate this hypothesis.     

Free radical scavenging activity of propolis

We investigated the radical scavenging activity of propolis by ESR spectroscopy using spin trapping method. In addition, we examined the influence of a diet of 2% propolis on mice under oxidative stress. At low concentrations, the methanolic extract of propolis exhibited strong scavenging activity in vitro towards both the superoxide anion radical, generated by the hypoxanthine-xanthine oxidase reaction, and the NO radical, generated from the mixture of NOC-7 (NO generator) and carboxy-PTIO (spin trapping agent). An inhibitory effect of propolis on lipid peroxidation in vivo was observed, as determined by measurement of thiobarbituric acid-reactive substances in mouse liver homogenate. The level of vitamin C in the brain of mice under oxidative stress significantly increased compared with control mice under atmosphere, which was not observed in the mice given 2% propolis. The level of alpha-tocopherol in the brain of mice given 2% propolis significantly increased compared with control mice under atmosphere, which was not observed in mice under oxidative stress. SOD activity in the brain and plasma of mice given 2% propolis significantly decreased under atmosphere and oxidative stress compared with control mice. These results suggest that propolis possesses potent antioxidant activity in vitro and in vivo.     

The contribution of Academician L. A. Orbeli to the theory of higher nervous activity]

In the paper are discussed the main directions of the investigation of the higher nervous activity, fruitfully developed by academician L. A. Orbeli and his school. These directions are the following: the evolutionary approach, the study of the influence of the sympathetic nervous and endocrine systems, of the role of the extracortical brain structures, especially the hypothalamus and the cerebellum, and the significance of pain and efferent systems for the higher nervous activity.     

Regulation of osteoprotegerin pro- or anti-tumoral activity by bone tumor microenvironment

Tumor development in bone is often associated with fractures, bone loss and bone pain, and improvement is still needed in therapeutic approaches. Bone tumors are related to the existence of a vicious cycle between bone resorption and tumor proliferation in which the molecular triad osteoprotegerin (OPG)/receptor activator of NF-kappaB (RANK)/RANK ligand (RANKL) plays a pivotal role. RANKL, a member of the TNF superfamily, is one of the main inducers of bone resorption. Its soluble receptor OPG represents a promising therapeutic candidate as it prevents bone lesions and inhibits associated tumor growth. However, its therapeutic use in bone tumors remains controversial due to its ability to bind and inhibit another member of the TNF superfamily, TNF related apoptosis inducing ligand (TRAIL), which is a potent inducer of tumor cell apoptosis. Through its heparin binding domain, OPG is also able to bind proteoglycans present in the bone matrix. This paper is an overview of the involvement of the micro-environment, as represented by the balance of RANKL/TRAIL and the presence of proteoglycans in the regulation of OPG biological activity in bone tumors.     

In vitro antimicrobial activity of a novel propolis formulation (Actichelated propolis)

AIMS: This study compared in vitro activities of Actichelated propolis (a multicomposite material obtained with mechano-chemichal activation) and of a hydroalcoholic extract of propolis. METHODS AND RESULTS: Minimal inhibitory concentration (MIC) and minimal bactericidal concentration (MBC), determined by means of microdilution broth method, against five strains of Staphylococcus aureus, Streptococcus pyogenes, Haemophilus influenzae, Enterococcus spp., Escherichia coli, Proteus mirabilis and Pseudomonas aeruginosa, showed a greater potency of Actichelated propolis (MIC range: 0.016-4 mg flavonoids ml(-1)) in respect to the hydroalcoholic extract (MIC range: 0.08-21.4 mg flavonoids ml(-1)). Concentrations of Actichelated propolis active against adenovirus, influenza virus, parainfluenza virus and herpes virus type 1 were at least 10 times lower than those of the hydroalcoholic extract. Preincubation of Strep. pyogenes and H. influenzae with subinhibitory concentrations of Actichelated propolis (1/4 and 1/8 x MIC) significantly reduced the number of bacteria that adhered to human buccal cells. CONCLUSIONS: Actichelated propolis has proven to possess antibacterial and antiviral activity higher than a hydroalcoholic extract, being also able to interfere on bacterial adhesion to human oral cells. SIGNIFICANCE AND IMPACT OF THE STUDY: This new formulation of propolis showing better antimicrobial and physical characteristics could improve the application of propolis in respiratory tract infections.     

In vitro antimicrobial activity of propolis and synergism between propolis and antimicrobial drugs

The aim of this study was to investigate antimicrobial properties of ethanolic extract of 13 propolis (EEP) samples from different regions of Serbia against 39 microorganisms (14 resistant or multiresistant to antibiotics), and to determine synergistic activity between antimicrobials and propolis. Antimicrobial activity of propolis samples was evaluated by agar diffusion and agar dilution method. The synergistic action of propolis with antimicrobial drugs was assayed by the disc diffusion method on agar containing subinhibitory concentrations of propolis. Obtained results indicate that EEP, irrespectively of microbial resistance to antibiotics, showed significant antimicrobial activities against Gram-positive bacteria (MIC 0.078%–1.25% of EEP) and yeasts (0.16%–1.25%), while Gram-negative bacteria were less susceptible (1.25&%ndash;>5%). Enterococcus faecalis was the most resistant Gram-positive bacterium, Salmonella spp. the most resistant Gram-negative bacteria, and Candida albicans the most resistant yeast. EEP showed synergism with selected antibiotics, and displayed ability to enhance the activities of antifungals. The shown antimicrobial potential of propolis alone or in combination with certain antibiotics and antifungals is of potential medical interest.     

Egyptian propolis: 1-antimicrobial activity and chemical composition of Upper Egypt propolis

The antimicrobial activity of four propolis samples collected from Upper Egypt against Staphylococcus aureus; Escherichia coli and Candida albicans was evaluated. There was a variation in the antimicrobial activity according to the propolis origin. Banisweif propolis showed the highest antimicrobial activity against Staphylococcus aureus, Escherichia coli and Candida albicans, but Fayoum propolis had moderate activity against all tested pathogens. Propolis collected from Assiut and Souhag gave lower antimicrobial activity. Propolis samples were investigated by GC/MS, 71 compounds were identified, 14 being new for propolis. Banisweif propolis is characterized by the presence of 7 caffeate esters and 4 triterpenoids. Fayoum propolis showed the highest amount of lactic acid and the presence of 3 chalcones. But Assiut propolis is characterized by the presence of 4 prenylated coumarates. Souhag propolis is characterized by the presence of 5 aliphatic dicarboxylic acids and some other new compounds to propolis.     

Multifactorial aspects of antimicrobial activity of propolis

We investigated the antibacterial activity of sub-inhibitory concentrations of ethanolic extract of propolis (EEP), and its effect on the antibacterial activity of some antibiotics. Some clinically isolated Gram-positive strains were used.

Moreover, sub-inhibitory concentrations of EEP were used to value its action on some important virulence factors like lipase and coagulase enzymes, and on biofilm formation in Staphylococcus aureus.

Our results indicated that EEP had a significant antimicrobial activity towards all tested clinical strains.

Adding EEP to antibacterial tested drugs, it drastically increased the antimicrobial effect of ampicillin, gentamycin and streptomycin, moderately the one of chloramphenicol, ceftriaxon and vancomycin, while there was no effect with erithromycin.

Moreover, our results pointed out an inhibitory action of EEP on lipase activity of 18 Staphylococcus spp. strains and an inhibitory effect on coagulase of 11 S. aureus tested strains.

The same EEP concentrations showed a negative interaction with adhesion and consequent biofilm formation in S. aureus ATCC 6538P.     

The contribution of the amygdala and hypothalamus to the shaping of hippocampal theta activity

Under chronic experiment of 15 rabbits the hippocampal electrogram character has been studied under electrical, cholinergic, monoaminergic stimulation of the hypothalamus before and after unilateral electrocoagulation of stria terminalis. The synchronizing hypothalamic influence caused by the given stimuli on hippocampal theta-rhythm has been shown to be completely and irreversibly blocked up by the stria terminalis lesion. A leading role of the amygdala-hypothalamic interrelations in hippocampal theta activity formation is suggested.     

The contribution of 2'-hydroxyls to the cleavage activity of the Neurospora VS ribozyme

We have used nucleotide analog interference mapping and site-specific substitution to determine the effect of 2′-deoxynucleotide substitution of each nucleotide in the VS ribozyme on the self-cleavage reaction. A large number of 2′-hydroxyls (2′-OHs) that contribute to cleavage activity of the VS ribozyme were found distributed throughout the core of the ribozyme. The locations of these 2′-OHs in the context of a recently developed helical orientation model of the VS ribozyme suggest roles in multi-stem junction structure, helix packing, internal loop structure and catalysis. The functional importance of three separate 2′-OHs supports the proposal that three uridine turns contribute to local and long-range tertiary structure formation. A cluster of important 2′-OHs near the loop that is the candidate region for the active site and one very important 2′-OH in the loop that contains the cleavage site confirm the functional importance of these two loops. A cluster of important 2′-OHs lining the minor groove of stem–loop I and helix II suggests that these regions of the backbone may play an important role in positioning helices in the active structure of the ribozyme.