Anti-cancer properties of berries rich in polyphenols in colorectral cancer models and chronic lymphocytic leukama : evaluation and characterization of the cellular and the molecular mechanisms

L’évaluation de l’effet cytotoxique de différents jus de fruits naturellement riches en polyphénols vis-à-vis de quatre lignées de cancer colorectal a montré que le jus de la canneberge est particulièrement actif. En effet, les polyphénols de la canneberge induisent l’apoptose associée à une surexpression des deux facteurs de transcription pro-apoptotiques p73 et FOXO3a. Cette mort programmée est aussi associée à une diminution de l’expression de SIRT1 le déacétylateur de protéines non histone telles que p73, KU70, ou FOXO. D’autres événements précoces comme la production de ROS et les dommages à l’ADN connus pour réguler l’expression de SIRT1 ont été confirmés. Une deuxième étude avait pour objectif de valider le potentiel anticancéreux in vivo chez la souris Balb/C injectée de cellules d’adénocarcinome colique murin. Pour cela nous avons choisi le jus d’aronie noire qui a montré in vitro un profil de cytotoxicité intéressant. L’analyse des tumeurs a montré que l’administration de jus d’aronie entraine une réduction de la prolifération des cellules tumorales. Enfin, l’augmentation significative de la mobilité de LC3 suggère l’activation d’une mort cellulaire autophagique. Afin d’évaluer l’utilisation clinique des polyphénols, nous avons évalué les effets cytotoxiques des polyphénols de myrtille sur des lymphocytes, de patients atteints de LLC. Nos résultats montrent que l’extrait polyphénolique induit une apoptose dépendante du stress oxydant et impliquant aussi des protéines pro-apoptotiques dans des cellules de patients atteints de LLC mais pas dans les cellules de sujets sains.The evaluation of the cytotoxic effect of different fruit juices, naturally rich in polyphenols, on four different colorectal cancer cell lines proved that cranberry juice was the most active. Indeed, cranberry polyphenols induce apoptosis associated with the overexpression of two important proapoptotic transcription factors, p73 and FOXO3a on one hand. Furthermore, it has been also correlated with a decrease in the expression of SIRT1, the deacetylase of several non-histone proteins such as p73, KU70 and FOXO. Other early events such as ROS production and DNA damage, which are known to regulate the expression of SIRT1 were confirmed. The second study aims at validating the potential anticancer effects in an in vivo model of colorectal cancer in BALB/c mice injected subcutaneously of murine colon adenocarcinoma cells. Accordingly, we chose the black chokeberry juice, which showed an interesting cytotoxic profile in vitro. The analysis of tumors demonstrated that the administration of chokeberry juice leads to a reduction in tumor cell proliferation. Finally, the significant increase in the mobility of LC3 suggests the activation of autophagic cell death. To validate the clinical use of polyphenols, we evaluated the cytotoxic effects of blueberry polyphenols on lymphocytes of CLL patients. Our results show that the polyphenolic extract induces an oxidative stress-dependent apoptosis that involve various pro-apoptotic proteins in cells of patients with CLL but not in healthy subjects

Anti-cancer properties of berries rich in polyphenols in colorectral cancer models and chronic lymphocytic leukama : evaluation and characterization of the cellular and the molecular mechanisms

L’évaluation de l’effet cytotoxique de différents jus de fruits naturellement riches en polyphénols vis-à-vis de quatre lignées de cancer colorectal a montré que le jus de la canneberge est particulièrement actif. En effet, les polyphénols de la canneberge induisent l’apoptose associée à une surexpression des deux facteurs de transcription pro-apoptotiques p73 et FOXO3a. Cette mort programmée est aussi associée à une diminution de l’expression de SIRT1 le déacétylateur de protéines non histone telles que p73, KU70, ou FOXO. D’autres événements précoces comme la production de ROS et les dommages à l’ADN connus pour réguler l’expression de SIRT1 ont été confirmés. Une deuxième étude avait pour objectif de valider le potentiel anticancéreux in vivo chez la souris Balb/C injectée de cellules d’adénocarcinome colique murin. Pour cela nous avons choisi le jus d’aronie noire qui a montré in vitro un profil de cytotoxicité intéressant. L’analyse des tumeurs a montré que l’administration de jus d’aronie entraine une réduction de la prolifération des cellules tumorales. Enfin, l’augmentation significative de la mobilité de LC3 suggère l’activation d’une mort cellulaire autophagique. Afin d’évaluer l’utilisation clinique des polyphénols, nous avons évalué les effets cytotoxiques des polyphénols de myrtille sur des lymphocytes, de patients atteints de LLC. Nos résultats montrent que l’extrait polyphénolique induit une apoptose dépendante du stress oxydant et impliquant aussi des protéines pro-apoptotiques dans des cellules de patients atteints de LLC mais pas dans les cellules de sujets sains.The evaluation of the cytotoxic effect of different fruit juices, naturally rich in polyphenols, on four different colorectal cancer cell lines proved that cranberry juice was the most active. Indeed, cranberry polyphenols induce apoptosis associated with the overexpression of two important proapoptotic transcription factors, p73 and FOXO3a on one hand. Furthermore, it has been also correlated with a decrease in the expression of SIRT1, the deacetylase of several non-histone proteins such as p73, KU70 and FOXO. Other early events such as ROS production and DNA damage, which are known to regulate the expression of SIRT1 were confirmed. The second study aims at validating the potential anticancer effects in an in vivo model of colorectal cancer in BALB/c mice injected subcutaneously of murine colon adenocarcinoma cells. Accordingly, we chose the black chokeberry juice, which showed an interesting cytotoxic profile in vitro. The analysis of tumors demonstrated that the administration of chokeberry juice leads to a reduction in tumor cell proliferation. Finally, the significant increase in the mobility of LC3 suggests the activation of autophagic cell death. To validate the clinical use of polyphenols, we evaluated the cytotoxic effects of blueberry polyphenols on lymphocytes of CLL patients. Our results show that the polyphenolic extract induces an oxidative stress-dependent apoptosis that involve various pro-apoptotic proteins in cells of patients with CLL but not in healthy subjects

Antibacterial and antibiofilm activities of Scorzonera mackmeliana

International audienceScorzonera have been confiuned to have potent bioactivity. Scorzonera mackmeliana (Asteraceae), the endemic plant to Lebanon, has not yet been investigated. In the present study, we assessed the antibacterial activity of S. mackmeliana extracts against referenced bacterial strains. Extracts from different parts of the plant were evaluated against Staphylococcus, Enterococcus, Escherichia and Pseudomonas species. Phytochemical screening was done by standard biochemical tests and minimal inhibitory concentration (MIC), minimal bactericidal concentration (MBC) and minimal biofilm eradication concentration (MBEC) were detelinined by micro dilution method. The extracts possessed mainly alkaloids, phenols, flavonoids and coumarins. Gram-negative bacteria were most sensitive, whose MICs ranged between 48.98 and 341.85 mg/ml. Water stems extract, rich in phenols, was the most active with an MIC of 48.98 mg/ml. MBC was only recorded for water flowers extract, rich in resins, against P. aeruginosa and ethanolic roots extract, rich in terpenoids, against S. epidermidis with values of 160.85 mg/ml and 284.35 mg/ml, respectively. Furtheimore, antibiofilm activity showed that the lowest MBEC was 0.1 mg/ml for water stems extract with an eradication ability of 91% (p <0.0001). Hence, this study suggests S. mackmeliana as a promising candidate for future investigations to elucidate the major bioactive compound behind the antibacterial and antibiofilm effect

An antibiotic potentiator retains its activity after being immobilized on silicone and prevents growth of multidrug-resistant Pseudomonas aeruginosa biofilms

Device-Associated Healthcare-Associated Infections (DA-HAI) are a major threat to public health worldwide since they are associated with increased hospital stays, morbidity, mortality, financial burden, and hospital overload. A strategy to combat DA-HAI involves the use of medical devices endowed with surfaces that can kill or repel pathogens and prevent biofilm formation. We aimed to develop low-toxic protease-resistant anti-biofilm surfaces that can sensitize drug-resistant bacteria to sub-inhibitory concentrations of antibiotics. To this end, we hypothesized that polymyxin B nonapeptide (PMBN) could retain its antibiotic-enhancing potential upon immobilization on a biocompatible polymer, such as silicone. The ability of PMBN-coated silicone to sensitize a multidrug-resistant clinical isolate of Pseudomonas aeruginosa (strain Ps4) to antibiotics and block biofilm for- mation was assessed by viable counting, confocal microscopy and safranin uptake. These assays demonstrated that covalently immobilized PMBN enhances not only antibiotics added exogenously but also those incorporated into the functionalized coating. As a result, the functionalized surface exerted a potent bactericidal activity that precluded biofilm formation. PMBN-coated silicone displayed a high level of stability and very low cytotoxicity and hemolytic activity in the presence of antibiotics. We demonstrated for the first time that an antibiotic enhancer can retain its activity when covalently attached to a solid surface. These findings may be applied to the development of medical devices resistant to biofilm formatio

An antibiotic potentiator retains its activity after being immobilized on silicone and prevents growth of multidrug-resistant Pseudomonas aeruginosa biofilms

Device-Associated Healthcare-Associated Infections (DA-HAI) are a major threat to public health worldwide since they are associated with increased hospital stays, morbidity, mortality, financial burden, and hospital overload. A strategy to combat DA-HAI involves the use of medical devices endowed with surfaces that can kill or repel pathogens and prevent biofilm formation. We aimed to develop low-toxic protease-resistant anti-biofilm surfaces that can sensitize drug-resistant bacteria to sub-inhibitory concentrations of antibiotics. To this end, we hypothesized that polymyxin B nonapeptide (PMBN) could retain its antibiotic-enhancing potential upon immobilization on a biocompatible polymer, such as silicone. The ability of PMBN-coated silicone to sensitize a multidrug-resistant clinical isolate of Pseudomonas aeruginosa (strain Ps4) to antibiotics and block biofilm for- mation was assessed by viable counting, confocal microscopy and safranin uptake. These assays demonstrated that covalently immobilized PMBN enhances not only antibiotics added exogenously but also those incorporated into the functionalized coating. As a result, the functionalized surface exerted a potent bactericidal activity that precluded biofilm formation. PMBN-coated silicone displayed a high level of stability and very low cytotoxicity and hemolytic activity in the presence of antibiotics. We demonstrated for the first time that an antibiotic enhancer can retain its activity when covalently attached to a solid surface. These findings may be applied to the development of medical devices resistant to biofilm formatio

Wild Wheat Rhizosphere-Associated Plant Growth-Promoting Bacteria Exudates: Effect on Root Development in Modern Wheat and Composition

Diazotrophic bacteria isolated from the rhizosphere of a wild wheat ancestor, grown from its refuge area in the Fertile Crescent, were found to be efficient Plant Growth-Promoting Rhizobacteria (PGPR), upon interaction with an elite wheat cultivar. In nitrogen-starved plants, they increased the amount of nitrogen in the seed crop (per plant) by about twofold. A bacterial growth medium was developed to investigate the effects of bacterial exudates on root development in the elite cultivar, and to analyze the exo-metabolomes and exo-proteomes. Altered root development was observed, with distinct responses depending on the strain, for instance, with respect to root hair development. A first conclusion from these results is that the ability of wheat to establish effective beneficial interactions with PGPRs does not appear to have undergone systematic deep reprogramming during domestication. Exo-metabolome analysis revealed a complex set of secondary metabolites, including nutrient ion chelators, cyclopeptides that could act as phytohormone mimetics, and quorum sensing molecules having inter-kingdom signaling properties. The exo-proteome-comprised strain-specific enzymes, and structural proteins belonging to outer-membrane vesicles, are likely to sequester metabolites in their lumen. Thus, the methodological processes we have developed to collect and analyze bacterial exudates have revealed that PGPRs constitutively exude a highly complex set of metabolites; this is likely to allow numerous mechanisms to simultaneously contribute to plant growth promotion, and thereby to also broaden the spectra of plant genotypes (species and accessions/cultivars) with which beneficial interactions can occur

Local or global commons? Application of framework for analysing SES for soil biodiversity at EU level

Defect in apoptosis has been implicated as a major cause of resistance to chemotherapy observed in B cell chronic lymphocytic leukaemia (B CLL). This study evaluated the pro-apoptotic effect of an anthocyanin-rich dietary bilberry extract (Antho 50) on B CLL cells from 30 patients and on peripheral blood mononuclear cells (PBMCs) from healthy subjects, and determined the underlying mechanism. Antho 50 induced concentration- and time-dependent pro-apoptotic effects in B CLL cells but little or no effect in PBMCs. Among the main phenolic compounds of the bilberry extract, delphinidin-3-O-glucoside and delphinidin-3-O-rutinoside induced a pro-apoptotic effect. Antho 50-induced apoptosis is associated with activation of caspase 3, down-regulation of UHRF1, a rapid dephosphorylation of Akt and Bad, and down-regulation of Bcl-2. Antho 50 significantly induced PEG-catalase-sensitive formation of reactive oxygen species in B CLL cells. PEG-catalase prevented the Antho 50-induced induction of apoptosis and related signaling. The present findings indicate that Antho 50 exhibits strong pro-apoptotic activity through redox-sensitive caspase 3 activation-related mechanism in B CLL cells involving dysregulation of the Bad/Bcl-2 pathway. This activity of Antho 50 involves the glucoside and rutinoside derivatives of delphinidin. They further suggest that Antho 50 has chemotherapeutic potential by targeting selectively B CLL cells