Expression, purification, and antimicrobial activity of avian beta-defensin-2, -6, and -12

Zhao, Li

30 April 2011

Total RNA was extracted from chicken oviduct epithelial cells. Avian Beta-defensin (AvBD)-2, -6, and -12 cDNAs were amplified by reverse transcription-PCR and cloned into pRSET A style='msoareast-language:ZH-CN'>, a protein expression vector. The class=SpellE>hexa-histidine-tagged class=SpellE>AvBD peptides were expressed in Escherichia coli (E. coli) BL21(DE3) class=SpellE>plysS and affinity-purified. The antimicrobial activities of the recombinant AvBDs against E. coli style='msoareast-language:ZH-CN;mso-bidiont-style:italic'>, Salmonella class=SpellE>enterica style='mso-bookmark:OLE_LINK9'> serovar Typhimurium (S. class=SpellE>typhimurium), and Staphylococcus aureus style='msoareast-language:ZH-CN'> (S. aureus) were determined. style='msoareast-language:ZH-CN;mso-bidiont-style:italic'> At 8, 16 and 32 µg/ml, all three rAvBDs killed and inhibited the growth style='msoareast-language:ZH-CN'> of E. coli style='msoareast-language:ZH-CN;mso-bidiont-style:italic'>, S. typhimurium, and S. aureus. The killing of rAvBD-2, -6, and -12 against stationary phase E. coli and S. class=SpellE>aureus was pH dependent in the range investigated. style='msoareast-language:ZH-CN'> In addition, the killing-curves showed that rAvBDs exerted their antimicrobial function within 30 minutes of treatment, suggesting the fast killing mechanisms of rAvBDs.

colony-counting assay

S. aureus

E. coli

Antimicrobial activity

S. enterica serovar Typhimurium

Killing kinetics

Growth inhibitory activities

Avian â-Defensin

AvBD

Antibacterial and Antifungal Activity of Ceragenins, Mimics of Endogenous Antimicrobial Peptides

Mohammadihashemi, Marjan

01 April 2019

The continuous emergence of drug-resistance pathogens is a global concern. As a result, substantial effort is being expended to develop new therapeutics and mechanisms for controlling microbial growth to avoid entering a "post-antibiotic" era in which commonly used antibiotics are no longer effective in treating infections. In this work, we investigate the efficacy and application of ceragenins as non-peptide mimics of antimicrobial peptides (AMPs). First, this work examines the susceptibility of drug-resistant Gram-negative bacteria. The susceptibility of colistin-resistant clinical isolates of Klebsiella pneumoniae to ceragenins and AMPs suggests that there is little to no cross-resistance between colistin and ceragenins/AMPs. Furthermore, Lipid A modifications are found in bacteria with modest changes in susceptibility to ceragenins and with high levels of resistance to colistin. Next, we investigated the potential for cross resistance between chlorhexidine, colistin, AMPs and ceragenins as repeated exposure of bacteria to chlorhexidine might result in cross resistance with colistin, AMPs or ceragenins. Furthermore, a proteomics study on the chlorhexidine-resistant strains showed that chlorhexidine resistance is associated with upregulation of proteins involved in the assembly of LPS for outer membrane biogenesis and virulence factors in Pseudomonas aeruginosa.Second, this dissertation describes the antifungal activity of ceragenins against an emerging multidrug-resistant fungus, Candida auris. We found that lead ceragenins displayed activities comparable to known antifungal agents against C. auris isolates. We also found that fungal cell morphology was altered in response to ceragenin treatment, that ceragenins exhibited activity against sessile organisms in biofilms, and that gel and cream formulations including CSA-44 and CSA-131 resulted in a significant log reduction against established fungal infections in ex vivo mucosal tissues. Finally, a hydrogel film containing CSA-131 was generated on endotracheal tubes (ETTs). ETTs provide an abiotic surface on which bacteria and fungi form biofilms that cause serious infections. In this study, the eluting ceragenin prevented fungal and bacterial colonization of coated ETTs for extended periods while uncoated tubes were colonized by bacteria and fungi. Coated tubes were well tolerated in intubated pigs. The ability of ceragenins to eradicate established biofilms make them attractive potential therapeutics for persistent infections in the lung, including those associated with cystic fibrosis. In ex vivo studies, we initially found that this ceragenin, at concentrations necessary to eradicate established biofilms, also causes loss of cilia function. However, by formulating CSA-131 in poloxamer micelles, cilia damage was eliminated and antimicrobial activity was unaffected. These findings suggest that CSA-131, formulated in micelles, may act as a potential therapeutic for polymicrobial and biofilm-related infections in the lung and trachea.

antimicrobial peptides

ceragenins

CSA-131

CSA-44

antimicrobial activity

antifungal activity

endotracheal tube

colistin-resistant bacteria

drug-resistant

Candida auris

cilia

Physical Sciences and Mathematics

Crystal Engineering of Pharmaceuticals: Modulating Physicochemical Properties of Active Ingredients by the Formation of Cocrystals

Jhariya, Aditya N.

January 2021

Pharmaceuticals with suitable therapeutic properties often found to encounter challenges with dosage form development due to their poor physicochemical properties. Aim of thesis is to evaluate potential of crystal engineering directed cocrystallisation of active ingredients in modulating their physical attributes. The model compounds considered are isoniazid, caffeine, nifedipine, glyburide, chlorpropamide and riboflavin. Co-formers selected are based on the suitability of functional groups for hydrogen bond formation. Co-crystal screening and preparation methods used include neat grinding (NG), liquid assisted grinding (LAG) and solution crystallisation. Antituberculosis drug, isoniazid, upon cocrystallisation with melamine, solubility has reduced as per high performance liquid chromatography assay, however, antimicrobial properties determined using REMA assay confirms that cocrystal anti-mycobacterial activity is not compromised. Next, caffeine-glutaric acid cocrystal polymorphic forms (Forms I and II) subjected to mechanical property evaluations in multiple faces using nanoindentation and correlated relationship between crystal structure and mechanical property. The results suggest that metastable form, Form I, could display suitable tablet properties to that of thermodynamically stable form, Form II. Subsequently, photosensitive drug, nifedipine, cocrystallised with theophylline and caffeine. Notably, photochemical stability along with solubility and drug release of cocrystals is found to be superior to that of nifedipine. Lastly, crystal engineering principles utilised in preparation of multicomponent crystals of antidiabetic model drugs, glyburide and chlorpropamide with various coformers. Interestingly, during the preparation of chlorpropamide-2-nitrobenzyl alcohol, high Z prime crystal (Z’=3) of 2- nitrobenzyl alcohol is serendipitously identified. In conclusion, crystal engineering based cocrystallisation is a viable technology for modulating physicochemical properties of pharma and nutraceuticals.

Co-crystallisation

Crystal engineering

Mechanical properties

Tabletability

Solubility

Physicochemical stability

Z prime

Antimicrobial activity

X-ray crystallography

Antimicrobial packaging system for minimally processed fruit

Lara Lledó, Marta Inés

14 January 2018

Tesis por compendio / [EN] In the present Doctoral Thesis, antimicrobial active packaging materials, at lab and at semi-industrial scale, have been developed with the aim to reduce the natural flora of peeled and cut fruit and extend its shelf life. Packaging prototypes have been developed for their further application. Prior to developing the active materials, the most suitable active agents were selected. To that end, the antimicrobial properties of the volatile active agents citral, hexanal and linalool and mixtures thereof were evaluated against typical microorganisms related to fruit spoilage, molds and yeast, concluding that the effectiveness of the mixture is higher than the sum of the effectiveness of the individual agents. Likewise, non-volatile antimicrobial agents such as potassium sorbate and sodium benzoate were selected, which are widely used in the food industry due to their antifungal properties. With the selected active agents, monolayer polypropylene (PP) films with different concentration of the active mixture citral, hexanal and linalool, at lab scale by means of extrusion, and bilayer films at semi-industrial scale with different active layer thickness by means of coextrusion were prepared. Besides, active packaging trays were developed at semi-industrial scale by thermoforming active sheets obtained by coextrusion of PP and ethyl vinyl acetate (EVA) compounds containing potassium sorbate and sodium benzoate as active agents. Mechanical, barrier and thermal properties of the developed active packaging materials, as well as their sealability and transparency were evaluated. In general, the materials' properties were not affected in a significant manner. However, active trays decreased in transparency due to the incorporation of non-volatile active agents. The release kinetics of the volatile and non-volatile active agents were studied at different temperatures, defining their diffusion coefficients by the adjustment to mathematic models based on Second's Law Fick. Among the volatile active agents, hexanal showed a higher diffusion coefficient, followed by citral and linalool. On the other hand, very small differences were observed between potassium sorbate and sodium benzoate diffusion coefficients, being of the same order of magnitude. In vitro tests were also performed at different temperatures to evaluate the antimicrobial properties of the developed materials. In general, the active packaging materials showed high antimicrobial properties which were enhanced with the increment of temperature. Once the properties of the developed materials were evaluated, in vivo tests with peeled and cut orange and pineapple were performed by packing these fruits with the active film, active tray and their combination (active packaging system). In general, the active packaging system improved the microbiological preservation of the fruit for longer times, between 2 and 7 days for orange and pineapple, respectively, and maintained quality parameters of the fruit at stable levels for longer times. Lastly, the safety of the active packaging materials was evaluated according to the European food contact materials and food legislation, and it was concluded that these materials were not of any safety concern for the consumers. / [ES] En la presente Tesis Doctoral se han desarrollado materiales de envase activo antimicrobiano, a escala laboratorio y a escala semi-industrial, con el objetivo de reducir la proliferación de la flora natural de la fruta pelada y cortada y extender su vida útil. Se han desarrollo distintos prototipos para su posterior aplicación industrial Previo al desarrollo de los materiales de envase, se ha realizado una selección de agentes activos más idóneos. Para ello se han estudiado mediante ensayos in vitro las propiedades antimicrobianas de agentes activos volátiles, citral, hexanal y linalool y diferentes mezclas de los mismos, frente a distintos microorganismos típicos del deterioro de las frutas, mohos y levaduras, concluyendo que la efectividad de la mezcla de los tres es superior a la suma de la efectividad de los activos de forma individual. Así mismo, también se han seleccionado antimicrobianos no volátiles como el sorbato potásico y benzoato sódico, los cuáles son ampliamente empleados en la industria alimentaria debido principalmente a sus propiedades antifúngicas. Con los agentes activos seleccionados, se han desarrollado películas monocapa de polipropileno (PP) con distintas concentraciones de la mezcla activa, citral, hexanal y linalool, a escala laboratorio, mediante técnicas de extrusión, y películas bicapa a escala semi-industrial con distintos espesores de capa activa mediante coextrusión. Por otra parte, se desarrollaron bandejas activas a escala semi-industrial mediante termoconformado de láminas obtenidas por coextrusión de compuestos de PP y etilvinilaceteto (EVA) con sorbato potásico o benzoato sódico como agentes antimicrobianos. Se han evaluado las propiedades mecánicas, barrera y térmicas de los materiales activos desarrollados, así como su sellabilidad y transparencia. En general, las propiedades de los polímeros no se vieron afectadas de manera relevante. Sin embargo, las bandejas activas perdieron su carácter transparente debido a la incorporación de los agentes activos no volátiles. Se ha estudiado la cinética de liberación de los compuestos activos volátiles y no volátiles a distintas temperaturas, determinando los coeficientes de difusión de los agentes activos mediante el ajuste a modelos matemáticos de difusión basados en la Segunda Ley de Fick. Entre los agentes volátiles, el hexanal mostró un mayor coeficiente de difusión seguido de citral y linalool. Por otra parte, no hubo apenas diferencia en los coeficientes de difusión del sorbato potásico y benzoato sódico, siendo éstos del mismo orden de magnitud. Igualmente, se han realizado diferentes experimentos in vitro a distintas temperaturas para determinar las propiedades antimicrobianas de los materiales desarrollados. En general, los materiales activos presentan una elevada capacidad antimicrobiana que se ve potenciada al aumentar la temperatura de exposición. Una vez evaluadas las características de los materiales desarrollados, se han efectuado ensayos de envasado de naranja y piña pelada y cortada con las películas y las bandejas activas y con la combinación del sistema de envase bandeja activa termosellada con la película activa. En general, el sistema de envase activo mejoró la conservación de la fruta por un mayor tiempo, entre 2 y 7 días para la naranja y piña, respectivamente, presentando una gran capacidad antimicrobiana y manteniendo los parámetros de calidad de la fruta en niveles estables por un mayor tiempo. Por último, se ha estudiado la seguridad de estos materiales de acuerdo a la legislación de materiales en contacto con alimentos y la legislación alimentaria europea, concluyendo que los materiales activos desarrollados no presentan preocupación para la seguridad de los consumidores. / [CA] En la present Tesi Doctoral s'han desenvolupat materials d'envasament actiu antimicrobià, a escala de laboratori i a escala semi-industrial amb l'objectiu de reduir la proliferació de la flora natural de la fruita pelada i tallada i estendre la seua vida útil. S'han desenvolupament diferents prototips per a la seua posterior aplicació industrial. Previ al desenvolupament dels materials actius, s'han seleccionat els agents actius mes idonis estudiant mitjançant assajos in vitro les propietats antimicrobianes d'agents actius volàtils, citral, hexanal i linalool i diferents mescles dels mateixos, enfront de diferents microorganismes típics de la deterioració de les fruites -floridures i llevats- concloent que l'efectivitat de la mescla dels tres és superior a la suma de l'efectivitat dels actius de forma individual. Així mateix, s'han seleccionat antimicrobians no volàtils, sorbat potàssic i benzoat sòdic, els quals son àmpliament empleats a l'industria alimentaria per les seues propietats antifúngiques. Amb els agents actius seleccionats, s'han desenvolupat pel·lícules monocapa de polipropilè (PP) amb diferents concentracions de la mescla activa, citral, hexanal i linalool, a escala laboratori, mitjançant tècniques d'extrusió, i pel·lícules bicapa a escala semi-industrial amb diferents espessors de capa activa mitjançant coextrusió. D'altra banda, s'han desenvolupat safates actives a escala semi-industrial mitjançant termoconformació de làmines obtingudes per coextrusió de compostos de PP i etil vinil acetat (EVA) amb sorbat potàssic o benzoat sòdic com a agents antimicrobians. S'han avaluat les propietats mecàniques, barrera i tèrmiques dels materials actius desenvolupats, així com la seua sellabilidad i transparència. En general, les propietats dels polímers no es van veure afectades de manera rellevant. No obstant això, les safates actives van perdre el seu caràcter transparent a causa de la incorporació dels agents actius no volàtils. S'ha estudiat la cinètica d'alliberament dels compostos actius volàtils i no volàtils a diferents temperatures, determinant els coeficients de difusió dels agents actius mitjançant l'ajust a models matemàtics de difusió basats en la Segona Llei de Fick. Entre els agents volàtils, l' hexanal va mostrar un major coeficient de difusió seguit de citral i linalool. D'altra banda, no va haver-hi a penes diferències en els coeficients de difusió del sorbat potàssic i benzoat sòdic, sent aquests del mateix ordre de magnitud. Igualment, s'han realitzat diferents experiments in vitro a diferents temperatures per determinar les propietats antimicrobianes dels materials desenvolupats. En general, els materials actius presenten una elevada capacitat antimicrobiana que es veu potenciada en augmentar la temperatura d'exposició. Una vegada avaluades les característiques dels materials desenvolupats s'han efectuat assajos d'envasament de taronja i pinya pelada i tallada amb la safata, la pel·lícula activa i la seva combinació (sistema d'envàs actiu). En general, el sistema d'envàs actiu va millorar la conservació de la fruita per un major temps, entre 2 i 7 dies per a la taronja i pinya respectivament, presentant una gran capacitat antimicrobiana i mantenint els paràmetres de qualitat de la fruita en nivells estables per un major temps. Finalment, s'ha estudiat la seguretat d'aquests materials d'acord a la legislació de materials en contacte amb aliments i la legislació alimentària europea, concloent que els materials actius desenvolupats no presenten preocupació per a la seguretat dels consumidors. / Lara Lledó, MI. (2016). Antimicrobial packaging system for minimally processed fruit [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/61388 / Premios Extraordinarios de tesis doctorales / Compendio

Antimicrobial active packaging

Extrusión

Citral

Hexanal

Linalool

Potassium sorbate

Sodium benzoate

Film

Tray

Release kinetics

Materials characterization

Antimicrobial activity

Minimally processed fruit

Shelf life

Food contact compliance.

Modulation de l'immunité innée moléculaire de l'oeuf / Modulating the innate molecular immunity of the egg

Bedrani, Larbi

11 April 2013

L’œuf est un aliment riche en divers composés dont de nombreuses molécules antimicrobiennes qui sont les effectrices de son système de défense moléculaire innée et complètent l’action des immunoglobulines (IgYs) afin de protéger l’embryon. La composition en IgYs de l’œuf est sous la dépendance notamment des stimulations microbiennes de la poule. L’objectif de notre travail a été d’évaluer l’influence de ces mêmes stimulations sur le système de défense moléculaire innée du blanc d’œuf. Nous avons exploré cette hypothèse en utilisant deux approches expérimentales. La première était basée sur la comparaison de l’activité antibactérienne des blancs d’œufs de poules axéniques, de poules exemptes d’organismes pathogènes spécifiques (EOPS), et de poules conventionnelles. La seconde approche a testé les effets de deux types d’inductions du système immunitaire chez la poule: injection d’un immunostimulant, le lipopolysaccharide bactérien (LPS) et administration oral de souches vaccinales atténuées (virale, bactérienne et parasitaire). Nos résultats montrent que l’activité antibactérienne du blanc d’œuf est augmentée en fonction de la charge microbienne du milieu de vie de la poule, après stimulation de celle-ci par voie intraveineuse avec du LPS ou suite à la vaccination avec des souches atténuées virale ou bactérienne. Néanmoins cette augmentation est modérée de par son amplitude et son spectre antibactérien. Ces résultats suggèrent que les poules peuvent renforcer modérément l’activité antimicrobienne du blanc d’œuf en réponse à des stimuli microbiens de leur milieu et anticiper ainsi les besoins de l’embryon en termes de protection. / The egg is a balanced source of different nutrients and contains a myriad of antibacterial peptides/proteins that ensure its chemical protection. These molecules are a part of its innate molecular defense and, in addition to the maternal immunoglobulins IgY, contribute to the protection of the forming embryo whose development occurs ex utero. It is well documented that yolk immunoglobulin deposition is induced by the environmental microbiome of the hen but no such evidence is available for antimicrobial peptides/proteins. Therefore the aim of this thesis was to assess whether the hen has the ability to stimulate the innate molecular immunity of the egg white when facing a higher environmental microbial load (commensal or pathogenic). To address these questions, we developed two main experimental approaches; the first assessed the impact of the hen environmental microbial load through the comparison of three groups of hens with different immune status:-Germ free, -Specific pathogen free (SPF), and -conventional. The second approach explored the effect of different types of immune stimulation in hens: non-infectious stimulation (systemic injection of bacterial lipopolysaccharide (LPS)); immune stimulation using attenuated live vaccines (Infectious bronchitis virus vaccine, Salmonella enterica Enteritidis vaccine and a complex of Eimeria vaccine). Our results show that the activity of egg white is increased in response to higher microbial environmental charge, after LPS systemic stimulation or after vaccinating hens with live attenuated viral and bacterial strains. However this response is moderate both in its amplitude and microbial spectrum. Altogether, it appears that hens when subjected to immune stimuli, have the ability to reinforce moderately the antibacterial activity of the egg white as an attempt to anticipate the need of protection of their embryos.

Poule pondeuse

Œufs

Défense moléculaires

Albumen

Axénique

EOPS

Stimulation immunitaire

Lipopolysaccharide

Vaccins

Activité antimicrobienne

Laying hen

Egg

Molecular defenses

Albumen

Germ free

SPF

Immune stimulation

Lipopolysaccharide

Vaccine

Antimicrobial activity

Avaliação da eficácia e segurança do extrato de folhas de Rubus rosaefolius Sm. visando a aplicação como conservante em produtos cosméticos / Effectiveness and safety evaluation of Rubus rosaefolius Sm. leaves, regarding to the preservative use in cosmetic products

Ostrosky, Elissa Arantes

15 July 2009

Os produtos cosméticos e farmacêuticos contendo componentes de origem natural têm aumentado significativamente nos últimos anos. Com o objetivo de utilizar esses componentes como conservante em formulações cosméticas, determinou-se a atividade antimicrobiana do extrato bruto de folhas de Rubus rosaefolius Sm. e suas frações. Aquele de melhor desempenho foi avaliado quanto à toxicidade in vitro e seu comportamento em formulações cosméticas (creme, gel e xampu), relacionado à estabilidade, eficácia do sistema conservante e compatibilidade epidérmica. A atividade antimicrobiana foi determinada pelo método de microdiluição e a concentração de 0,2% (p/v) do extrato bruto apresentou melhor desempenho. O teste de toxicidade do extrato bruto foi realizado por meio do método colorimétrico Cell Titer 96®, MTS, em cultura de queratinócitos humanos, constatando-se índice de citotoxicidade (IC50) de 1,0 mg/mL. As formulações cosméticas contendo o extrato foram analisadas quanto à estabilidade e as de melhor desempenho foram submetidas ao teste de eficácia do sistema conservante, de acordo com os procedimentos descritos na CTFA. O sistema conservante mostrou-se efetivo frente à Escherichia coli IAL 2393 (ATCC 10536), a Pseudomonas aeruginosa IAL 1874 (ATCC 9027), ao Staphylococcus aureus IAL 1875 (ATCC 6548), a Burkholderia cepacia IAL 1834 ATCC (17759) e a Candida albicans IAL 1611 (ATCC 10231). Avaliouse a compatibilidade epidérmica das formulações em equivalentes dermo-epidérmicos, sistema tridimensional cultivados na superfície ar-líquido. Os resultados mostraram que houve diferenças na compatibilidade epidérmica dependendo das características dos componentes das formulações. Concluiu-se que o extrato bruto de folhas de Rubus rosaefolius Sm. a 0,2% (p/v) pode ser utilizado como candidato a conservante em formulações cosméticas, sendo estável e apresentar compatibilidade epidérmica. / Cosmetic and pharmaceuticals products contained natural compounds have increased in the last few years. To verify the use of these compounds as preservative in formulations, the antimicrobial activity from the raw extract of the Rubus rosaefolius Sm. leaves and its fractions was determined. The toxicity in vitro and the behavior in cosmetic formulations (gel, emulsion and shampoo), regarding to the stability, effectiveness of the preservative system, and epidermal compatibility were evaluated in the extract, which had the best preservative action. The antimicrobial activity was determined by the micro dilution method, and the 0.2% concentration (w/v) of the raw extract had the best performance. The toxicity of the extract was analyzed by Cell Titer 96® colorimetric; MTS method in human keratinocytes culture, and the index of cytotoxicity (IC 50) found was 1.0 mg/mL. The cosmetic formulations with the raw extract were analyzed regarding to the stability and the best formulations were submitted to preservative challenge test, according to CTFA procedures. The preservative system was effective against Escherichia coli IAL 2393 (ATCC 10536), Pseudomonas aeruginosa IAL 1874 (ATCC 9027), Staphylococcus aureus IAL 1875 (ATCC 6548), Burkholderia cepacia IAL 1834 ATCC (17759), and Candida albicans IAL 1611 (ATCC 10231). The epidermal compatibility of the formulations was verified by skin (dermo-epidermal) equivalent, three-dimensional system, cultivated in the air-liquid surface. The results showed there were differences in the epidermal compatibility depended on the ingredient of formulation. In conclusion, the raw extract from the Rubus rosaefolius Sm leaves 0.2% (w/v) can be used as preservative candidate in the cosmetic formulations analyzed due to stability and it presented epidermal compatibility.

Rubus rosaefolius Sm

Agentes microbianos (Atividade)

Antimicrobial activity

Atividade antimicrobiana

Cell culture

Conservante natural

Cosmetic product

Cultura celular

Farmacologia

Medicinal plants

Natural preservative

Pharmacology

Plantas medicinais

Produto cosmético

Rubus rosaefolius Sm

Avaliação da atividade antimicrobiana e da citotoxicidade de extratos aquosos e hidroalcoólicos de Senna occidentalis L. (Link) / Antimicrobial activity and cytotoxicity evaluation of aqueous and hydro-alcoholic Senna occidentalis L. (Link) extracts

Lombardo, Marcia

12 January 2009

A Senna occidentalis é uma leguminosa nativa das Américas largamente distribuída e utilizada popularmente em regiões tropicais do mundo, apresentando relevância na busca de novos produtos naturais biologicamente ativos. O presente trabalho teve como objetivo a avaliação da atividade antimicrobiana e citotóxica de extratos aquosos das sementes e suas trações protéicas, bem como dos extratos hidroalcoólicos das sementes e das partes aéreas dessa planta, visando a sua utilização em preparações tópicas. As atividades antibacteriana e antifúngica, frente aos microrganismos padrões farmacêuticos, foram avaliadas pela técnica de diluição em meios líquidos, adaptada para microplacas. A citotoxicidade das amostras ativas foi avaliada pelo teste do MTS, empregando-se cultura de fibroblastos NIH-3T3. Como resultado, o extrato hidroalcoólico de sementes a 0,3% (p/v) foi o que melhor demonstrou potencial antimicrobiano, além de toxicidade adequada, podendo ser um candidato para o uso como um antimicrobiano ou conservante de preparações tópicas. / Senna occidentalis is a native leguminous from America widely spread in tropical regions of the world and employed in folk medicine, showing a great importance on the search of new bioactive natural products. The aim of the present work was to evaluate the antimicrobial and cytotoxic activities of the aqueous extract seeds\' and its protein fractions, as well the hydro-alcoholic extracts seeds\' and aerial parts from this plant, considering its possible use in topic preparations. The antibacterial and antifungal activities, against the pharmaceutical standard microorganisms, were evaluated by broth dilution technique, adapted to microplates. The cytotoxicity of active samples was evaluated by the cellular viability test with MTS employing NIH-3T3 fibroblasts cell culture. As a result, the hydro-alcoholic extract seeds\' 0,3% (w/v) demonstrated a better antimicrobial potential and a suitable toxicity. In such case, this extract could be a candidate for the use as antimicrobial or preservative of topic preparations.

Agentes antimicrobianos (Avaliação)

Antimicrobial activity

Antimicrobial Agents (Assessment)

Atividade antimicrobiana

Cassia occidentalis

Cassia occidentalis

Coffee weed

Cosméticos (Desenvolvimento)

Cosmetics (Development)

Farmacognosia

Fedegoso

Natural Products

Pharmacognosy

Produtos naturais

Senna occidentalis

Senna occidentalis

Avaliação da variação sazonal e atividade biológica dos óleos voláteis em duas espécies de Annonaceae / Evaluation of the seasonal variation and biological activity of volatile oils from two Annonaceae species

Ito, Rosilene Kinue

02 October 2008

Nesse estudo, foram avaliados os óleos voláteis de Porcelia macrocarpa (Warm) R. E. Fries e Rollinia sericea (R. E. Fries) R. E. Fries com relação a sua composição ao longo das estações anuais e sua atividade antimicrobiana e anticolinesterase. Entre os componentes majoritários foram identificados apenas sesquiterpenos em ambas as espécies, bicicloelemeno (7%), biciclogermacreno (10%), germacreno-D (15%) e espatulenol (15%) para a P. macrocarpa e, α-muurolol (5%), Z-nerolidol (6%), bicicloelemeno (7%), germacreno-D (10%), biciclogermacreno (10%), β-cariofileno (11 %) e β-elemeno (12%) para R. sericea, não apresentando variação sazonal significativa. Os testes antimicrobianos foram realizados com bactérias Gram--positivas e negativas e com fungos filamentosos e leveduriformes. Os resultados indicaram que os óleos testados apresentam um melhor potencial antifúngico do que antibacteriano quando testado na dose de 3,125 µL/mL e não apresentaram potencial para o desenvolvimento de novos fármacos para o tratamento da doença de Alzheimer. / In this study, the volatile oils from Porcelia macrocarpa(Warm) R.E.Fr. and Rollinia sericea (R.E.Fr.) R.E.Fr. were analyzed for the seasonal variation in their chemical composition and their antimicrobial and anticholinesterase activity. The major components consisted only of sesquiterpenes in both species, bicycloelemene (7%), bicyclogermacrene (10%), germacrene-D (15%) and sphatulenol (15%) to P. macrocarpa and, α-muurolol (5%), Z-nerolidol (6%), bicycloelemene (7%), germacrene-D (10%), bicyclogermacrene (10%), β-caryophyllene (11 %) e β-elemene (12%) to R. sericea and no significant seasonal variation could be detected. The antimicrobial assays were performed with Gram-positive and negative bacteria, filamentous fungi and yeasts. The results indicated that the tested oils presented a better antifungal potential than antibacterial, when done test in the dose of 3,125 µL/mL. These oils could also not be considered as potential targets for the development of new drugs for the Alzheimer\'s treatment.

Annonaceae

Annonaceae

Anticholinesterase Activity

Antimicrobial activity

Atividade anticolinesterase

Atividade antimicrobiana

Essential oils (Evaluation)

Farmacognosia (Atividade; Farmacologia)

Magnoliales (Activity; Pharmacology)

Magnoliales (Atividade; Farmacologia)

Natural products

Óleos essenciais (Avaliação)

Óleos voláteis

Pharmacognosy (Activity; Pharmacology)

Produtos naturais

Seasonal variation

Variação sazonal

Volatile oils

Bactérias simbiontes associadas à abelha sem ferrão Melipona scutellaris como fontes de produtos naturais bioativos / Bacterial symbionts associated with the stingless bee Melipona scutellaris as sources of bioactive natural products

Menegatti, Carla

21 September 2016

Os produtos naturais desempenham fundamental importância na descoberta de novos fármacos. Muitos destes fármacos originaram-se de produtos naturais microbianos o que demonstra uma extrema eficiência na habilidade dos micro-organismos de sintetizar substâncias químicas com elevado potencial biológico. Sabe-se que os insetos sociais estão sujeitos a condições climáticas e populacionais que aumentam sua susceptibilidade a parasitas. Assim, estes insetos desenvolveram um mecanismo de defesa evolutivo que consiste na associação simbiótica a bactérias capazes de biossintetizar produtos antimicrobianos contra os patógenos. Dispondo dessas informações, o presente trabalho contribuiu com o estudo dos produtos naturais biossintetizados pela bactéria Paenibacillus polymyxa ALLI-03-01, provável simbionte da espécie de abelha sem ferrão Melipona scutellaris. Os micro-organismos foram isolados de colônias mantidas no Departamento de Biologia da FFCLRP-USP. Todas as linhagens foram testadas contra dois fungos entomopatogênicos - Beauveria bassiana e Metarhizium anisopliae; os que apresentaram atividade antifúngica tiveram seus extratos em acetato de etila e metanol preparados e foram avaliados em ensaios antiparasitários contra Trypanosoma cruzi e Leishmania donovani. A bactéria ALLI-03-01, isolada do alimento larval, foi escolhida para os estudos químicos, pois apresentou satisfatória atividade antifúngica e proeminente atividade antiparasitária. Este micro-organismo foi identificado pelo sequenciamento do gene 16S rRNA como sendo a bactéria Paenibacillus polymyxa, conhecida pela alta capacidade de produção de metabólitos secundários. Para conhecer seu metabolismo, esta bactéria foi cultivada em meio ISP-2 ágar e líquido e do extrato em acetato de etila do cultivo fermentativo de P. polymyxa ALLI-03-01 foi isolado o ácido L-3-fenil lático. As atividades antifúngicas dos padrões comerciais dos ácidos D-(+)- e L-(-)- 3-fenil lático foram testadas frente ao fungo entomopatogênico B. bassiana e apenas o enantiômero L apresentou atividade antifúngica. Do extrato em metanol do cultivo em meio sólido do mesmo micro-organismo foram identificados em mistura, principalmente por MALDI-TOF MS/MS, nove diferentes ciclolipodepsipeptídeos, da classe das Fusaricidinas. As fusaricidinas são conhecidas por apresentarem alta atividade anti-microbiana, que foi comprovada quando duas frações compostas por diferentes fusaricidinas foram testadas frente ao fungo entomopatogênico Metarhizium anisopliae e contra a bactéria patogênica Paenibacillus larvae. As frações apresentaram resultados satisfatórios de inibição contra ambos os patógenos, dessa maneira as fusaricidinas e a produção seletiva do ácido L-3-fenil lático por esta bactéria podem ser vias de proteção da colônia, evitando que patógenos destruam-na e permitindo o desenvolvimento sadio de larvas. Sendo assim, este trabalho relata pela primeira vez a possível relação simbiótica existente entre o micro-organismo Paenibacillus polymyxa ALLI-03-01 e a colônia de abelhas Melipona scutellaris, bem como a produção por este micro-organismo de compostos com alta atividade antimicrobiana que podem exercer o controle de parasitas dentro da colônia, estabelecendo assim, uma possível relação ecológica entre o micro-organismo destacado e as abelhas Melipona scutellaris. / Natural products play an important role in drug discovery. Several drugs have been discovered or developed from microbial natural products hits and leads showing a great efficiency of microorganisms to synthesize compounds with high biological potential. It is known that social insects are subjected to climate and population conditions that increase their susceptibility to parasites. Therefore, these insects have developed an evolutionary defense mechanism consisting in symbiotic association with bacteria capable of biosynthesize antimicrobial products against pathogens. In this context, this study contributed to the knowledge of natural products biosynthesized by the bacterium Paenibacillus polymyxa ALLI-03-01, a probable symbiont of the stingless bee Melipona scutellaris. Microorganisms were isolated from colonies maintained at the Department of Biology of FFCLRP-USP. All strains were tested against two entomopathogenic fungi - Beauveria bassiana and Metarhizium anisopliae; strains that showed antifungal activity had their ethyl acetate and methanol extracts prepared and evaluated against the parasites Trypanosoma cruzi and Leishmania donovani. The bacterium ALLI-03-01, isolated from larval food, was selected for chemical studies, due to its satisfactory antifungal activity and outstanding antiparasitic activity. This microorganism was identified by gene 16S rRNA sequencing as Paenibacillus polymyxa, a bacterium recognized for its ability of biosynthesize secondary metabolities. This bacterium was cultivated in ISP-2 agar and liquid medium and from the ethyl acetate extract of P. polymyxa ALLI-03-01 cultivated in liquid medium L-3-phenyllactic acid was isolated. The antifungal activity of comercial standards of D-(+)- and L-(-)-phenyllactic acid were tested against entomopathogenic fungus B. bassiana and only the L enantiomer presented antifungal activity. Nine cyclo lipodepsipeptides known as fusaricidins were identified in mixture using MALDI-TOF-MS/MS from the methanol extract of ALLI-03-01. The fusaricidins are recognized for their high antimicrobial activity, which was confirmed when two fractions composed by different fusaricidins were tested against the entomopathogenic fungus Metarhizium anisopliae and the pathogenic bacterium Paenibacillus larvae. The fractions showed satisfactory inhibition against both pathogens. Therefore, fusaricidins and selective production of L-3-phenyllactic acid by the bacterium may be colony protection resources, preventing the action of pathogens and allowing healthy larvae development. Therefore, this study reports for the first time a possible symbiotic relationship between Paenibacillus polymyxa ALLI-03-01 and the colony of M. scutellaris bees, as well as production of compounds with high antimicrobial activity by this microorganism that might act as parasite control agents within the colony, establishing a possible ecological relationship between the bacterium and M. scutellaris bees.

ácido-L-3-fenil lático

antimicrobial activity

atividade antimicrobiana

fusaricidinas

fusaricidins

insetos sociais

L-3-phenyllactic acid

micro-organismo simbionte

Paenibacillus polymyxa ALLI-03-01

Paenibacillus polymyxa ALLI-03-01

social insects

symbiont microorganism

Desenvolvimento, padronização e avaliação biológica de extratos nebulizados de Dalbergia ecastaphyllum / Development, standardization and biological evaluation of spray drying extracts of Dalbergia ecastaphyllum

Maira Neto Zampiér

03 April 2012

Este trabalho teve por objetivo o desenvolvimento, padronização e avaliação da atividade antioxidante e antimicrobiana de extratos secos nebulizados de Dalbergia ecastaphyllum. Para que os objetivos propostas fossem alcançadosforam desenvolvidas metodologias analíticas capazes de avaliar a qualidade da matériaprima vegetal durante os processos de transformação (extração de compostos ativos, secagem, produto final, etc). A solução extrativa foi obtida a partir das folhas de D. ecastaphyllum empregando-se a extração por maceração dinâmica onde se avaliou fatores como: proporção planta:solvente, tempo e temperatura de extração através de um planejamento composto central (PCC). A solução extrativa otimizada foi avaliada quanto a presença de metabólitos secundários, atividade antioxidante/ antimicrobiana e foi submetida à secagem por nebulização onde foram investigados parâmetros de secagem e adjuvantes tecnológicos sobre o desempenho do equipamento e nas características morfológicas, físico-químicas e farmacológicas do produto. Os extratos secos foram submetidos a um estudo de estabilidade; sendo também utilizados para o desenvolvimento de formulações semi-sólidas cuja estabilidade foi avaliada em estudo acelerado. Pretende-se que os resultados advindos desse trabalho possam servir de base para a padronização de extratos de outras plantas medicinais com interesse terapêutico, bem como contribuir para o aprimoramento dos conhecimentos envolvidos no desenvolvimento tecnológico de produtos fitoterápicos. / This work aimed the development, standardization and evaluation of antioxidant and antimicrobial activity of spray dried extracts from Dalbergia ecastaphyllum. Analytical methodologies for evaluating the quality of the vegetable raw material during processing procedures (such as extraction of active compounds, drying, final product, etc.) were developed in order to achieve the proposed objectives. The extraction solution was obtained from the leaves of D. ecastaphyllum by dynamic maceration. In this stage, some factors were evaluated such as: the plant: solvent ratio, extraction time and temperature using a central composite design (CCD). The optimized extraction solution was evaluated for the presence of secondary metabolites and antioxidant / antimicrobial activity. It was also subjected to spray drying. In this process, the effects of the drying parameters and processing aids on the equipment performance and the morphological, physicochemical and pharmacological properties of the product were investigated. The dry extracts were subjected to a stability study; and were used for the development of semi-solid formulations, also evaluated in an accelerated stability study. It is intended that the results from this work can provide a basis for further standardization of extracts of other medicinal plants with therapeutic interest, as well as to contribute to the enhancement of the knowledge involved in the technological development of herbal products.

atividade antimicrobiana

atividade antioxidante

Dalbergia ecastaphyllum

estudo de estabilidade

fitoterápicos

própolis vermelha.

Secagem

spray drying

antimicrobial activity

antioxidant activity

Dalbergia ecastaphyllum

drying

herbal medicines

red propolis

spray drying

stability study