Pharmacokinetic properties and in silico ADME modeling in drug discovery

The discovery and development of a new drug are time-consuming, difficult and expensive. This complex process has evolved from classical methods into an integration of modern technologies and innovative strategies addressed to the design of new chemical entities to treat a variety of diseases. The development of new drug candidates is often limited by initial compounds lacking reasonable chemical and biological properties for further lead optimization. Huge libraries of compounds are frequently selected for biological screening using a variety of techniques and standard models to assess potency, affinity and selectivity. In this context, it is very important to study the pharmacokinetic profile of the compounds under investigation. Recent advances have been made in the collection of data and the development of models to assess and predict pharmacokinetic properties (ADME - absorption, distribution, metabolism and excretion) of bioactive compounds in the early stages of drug discovery projects. This paper provides a brief perspective on the evolution of in silico ADME tools, addressing challenges, limitations, and opportunities in medicinal chemistry.

Struktur, Funktion und potentielle Anwendung der PKC- und SNZ,SNO-Promotoren aus Geodia cydonium und Suberites domuncula

Die Schwämme (Porifera) sind eine reiche Quelle bioaktiver Naturstoffe. Viele dieser Naturstoffe besitzen das Potential, als Pharmazeutika, molekulare Sonden usw. eingesetzt oder weiterentwickelt zu werden. Die Beschaffung dieser Naturstoffe in ausreichenden Mengen stellt jedoch eines der größten Probleme bei der Testung und Produktion vielversprechender Substanzen dar. Der Transfer von DNA in Schwammzellen bzw. in komplette Organismen wäre ein vielversprechender Ansatz, dieses Problem zu lösen. Das Ziel dieser Arbeit war es deshalb, die Funktion und Struktur homologer Promotoren zu untersuchen und eine Methode des Gentransfers in Schwammzellen auszuarbeiten. Zu diesem Zweck wurde zusätzlich zu der bereits vorhandenen 5'-flankierenden Region des conventional PKC-Gens aus Geodia cydonium eine genomische Bibliothek von Suberites domuncula konstruiert, um diese mit Hilfe des DNA-Homologiescreenings nach den 5'-flankierenden Regionen des cPKC- und des SNZ (SnooZe)-Gens (SD_SNZG) zu durchsuchen. Die Klonierung und Sequenzierung sowohl des 5'-Bereichs als auch die Charakterisierung der Exon-Intron Struktur beider Gene wurde erfolgreich durchgeführt. In der 5'-Region des SNZ-Gens konnte dabei ein weiteres Gen (SD_SNO; SNZ proximal Open Reading Frame) identifiziert werden, das in einer 'Kopf-an-Kopf' Anordnung zu SD_SNZG orientiert ist. Sowohl SD_SNZG als auch SD_SNO wurden hochkonservierten Genfamilien zugeordnet, deren Vorkommen in Metazoen hier erstmals beschrieben wird.Funktionelle Studien mit Hilfe der Reportergene Luciferase und Enhanced Green Fluorescent Protein (EGFP) im heterologen System der NIH 3T3 Zellen wiesen sowohl dem cPKC-Promotor aus G. cydonium als auch dem SNZ-Promotor aus S. domuncula eine starke Promotoraktivität im Verhältnis zum SV40-Promotor nach. Die Aktivität des cPKC-Promotors aus S. domuncula dagegen war relativ schwach. Darüber hinaus konnte geklärt werden, daß die 5'-flankierende Region des SNZ-Gens bidirektionale Promotoraktivität aufweist und daß der G. cydonium cPKC-Promotor keine TATA-Box besitzt, sondern eine GC-Box für die basale Funktion benötigt.Als geeignete Methode zur Transfektion von Zellen des Schwamms S. domuncula erwies sich der ballistische Gentransfer mit Hilfe der Gene Gun. Homologe Promotoren konnten die sichtbare Expression des Reportergens EGFP jedoch nicht bewirken. Nur der virale CMV-Promotor erwies sich als hierfür geeignet.

Asymmetric aminocatalysis: a modern strategy for molecules, challenges and life

The studies conducted during my Phd thesis were focused on two different directions: 1. In one case we tried to face some long standing problems of the asymmetric aminocatalysis as the activation of encumbered carbonyl compounds and the control of the diastereoisomeric ratio in the diastero- and enantioselective construction of all carbon substituted quaternary stereocenters adjacent a tertiary one. In this section (Challenges) was described the asymmetric aziridination of ,-unsaturated ketones, the activation of ,-unsaturated -branched aldehydes and the Michael addition of oxindoles to enals and enones. For the activation via iminium ion formation of sterically demanding substrates, as ,-unsaturated ketones and ,-unsaturated -branched aldehydes, we exploited a chiral primary amine in order to overcome the problem of the iminium ion formation between the catalyst and encumbered carbonylic componds. For the control of diastereoisomeric ratio in the diastero- and enantioselective construction of all carbon substituted quaternary stereocenters adjacent a tertiary one we envisaged that a suitable strategy was the Michael addition to 3 substituted oxindoles to enals activated via LUMO-lowering catalysis. In this synthetic protocol we designed a new bifunctional catalyst with an amine moiety for activate the aldehyde and a tioureidic fragment for direct the approach of the oxindole. This part of the thesis (Challenges) could be considered pure basic research, where the solution of the synthetic problem was the goal itself of the research. 2. In the other hand (Molecules) we applied our knowledge about the carbonylic compounds activation and about cascade reaction to the synthesis of three new classes of spirooxindole in enantiopure form. The construction of libraries of these bioactive compounds represented a scientific bridge between medicinal chemistry or biology and the asymmetric catalysis.

Molecole bioattive naturali e sintetiche per la terapia di malattie da aumentato riassorbimento osseo

Le terapie convenzionali per le malattie da aumentato riassorbimento osseo sono limitate dalla tossicità sistemica, bassa biodisponibilità farmacologica e scarsa aderenza alle terapie. In questo studio sono stati considerati approcci terapeutici innovativi basati su composti naturali e sintetici. I) Valutazione dell'attività biologica di composti naturali. Evidenze sperimentali hanno dimostrato l’attività antiproliferativa ed antiapoptotica di piante della Medicina ayurvedica. Queste proprietà sono sfruttabili nel trattamento di malattie da aumentato riassorbimento osseo, come l'osteoporosi. Per chiarire i possibili effetti terapeutici di questi composti, sono stati studiati i decotti di Rubia cordifolia, Hemidesmus indicus, Emblica officinalis, ed Asparagus racemosus. Hemidesmis indicus si è dimostrato il più efficace. II) Valutazione dell'attività biologica di composti sintetici. I bisfosfonati (BP) sono farmaci capaci di legarsi alle superfici minerali ossee e all’idrossiapatite, nei siti di rimodellamento osseo. Poiché i BP inibiscono la funzione degli osteoclasti, sono convenzionalmente impiegati nel trattamento di malattie da aumentato riassorbimento osseo, come l'osteoporosi. Tuttavia, gli elevati costi e gli effetti collaterali legati alla somministrazione determinano una scarsa aderenza al trattamento condizionandone l’efficacia. Scopo di questo studio è stato quello di valutare l'attività biologica di BP chimicamente innovativi, meno tossici e sintetizzati con strategie catalitiche semplificate ed ecocompatibili, in modo da ridurre i costi di produzione. È stato valutato l’effetto citotossico e antiosteoclastico dei composti e confrontato con quello dei BP comunemente impiegati in clinica (neridronato, pamidronato e alendronato). I risultati sono stati considerati raggiunti qualora fossero identificati BP di nuova sintesi non citotossici e capaci di conservare almeno il 90% della capacità dei substrati di base di inibire il riassorbimento osseo. Tutti i composti di nuova sintesi sono risultati meno tossici del BP convenzionale, anche a concentrazioni più elevate ed i più efficaci sono stati un BP coniugato con acido biliare, un BP aromatico contenente azoto ed un BP alifatico contenente zolfo.

Valorization of pomaces from the mechanical extraction of virgin olive oils in dairy animal feeding

This research work is aimed at the valorization of two types of pomace deriving from the extra virgin olive oil mechanical extraction process, such as olive pomace and a new by-product named “paté”, in the livestock sector as important sources of antioxidants and unsaturated fatty acids. In the first research the suitability of dried stoned olive pomace as a dietary supplement for dairy buffaloes was evaluated. The effectiveness of this utilization in modifying fatty acid composition and improving the oxidative stability of buffalo milk and mozzarella cheese have been proven by means of the analysis of qualitative and quantitative parameters. In the second research the use of paté as a new by-product in dietary feed supplementation for dairy ewes, already fed with a source of unsaturated fatty acids such as extruded linseed, was studied in order to assess the effect of this combination on the dairy products obtained. The characterization of paté as a new by-product was also carried out, studying the optimal conditions of its stabilization and preservation at the same time. The main results, common to both researches, have been the detection and the characterization of hydrophilic phenols in the milk. The analytical detection of hydroxytyrosol and tyrosol in the ewes’ milk fed with the paté and hydroxytyrosol in buffalo fed with pomace showed for the first time the presence in the milk of hydroxytyrosol, which is one of the most important bioactive compounds of the oil industry products; the transfer of these antioxidants and the proven improvement of the quality of milk fat could positively interact in the prevention of some human cardiovascular diseases and some tumours, increasing in this manner the quality of dairy products, also improving their shelf-life. These results also provide important information on the bioavailability of these phenolic compounds.

Identifizierung chemischer Transportinhibitoren zur Modulation (patho)biologischer Genprodukte

Die intrazelluläre Lokalisation von Proteinen und Makromolekülen unterliegt in Eukaryoten einer strengen Regulation. Insbesondere erlaubt die Kompartimentierung eukaryotischer Zellen in Zellkern und Zytoplasma den simultanen Ablauf räumlich getrennter biochemischer Reaktionen, und damit die unabhängige Regulation zellulärer Programme. Da trotz intensiver Forschungsbemühungen bis dato die molekularen Details sowie die (patho)biologische Bedeutung von Kern-Zytoplasma-Transportprozessen noch immer nicht vollkommen verstanden sind, wurde im Rahmen der vorliegenden Arbeit ein Fokus auf die Identifizierung von chemischen Transportinhibitoren gelegt. Das zu diesem Zweck entwickelte Translokations-Biosensor-System basiert auf der Kombination von autofluoreszierenden Proteinen, sowie spezifisch ausgewählten Kernexport- und Kernimportsignalen. Nach Etablierung geeigneter Zellmodelle, die effizient und stabil die Translokations-Biosensoren exprimieren, wurde die 17 000 Substanzen umfassende Bibliothek der ChemBioNet-Initiative nach Kernexportinhibitoren mittels einer Fluoreszenzmikroskopie-basierten Hochdurchsatzanalyse-Plattform durchmustert. Zunächst wurden Translokations-Algorithmen, welche eine zuverlässige automatisierte Erkennung von Zellkern und Zytoplasma erlauben, optimiert. Im Folgenden konnten acht neue niedermolekulare Kernexport-Inhibitoren identifiziert werden, die sich in der Stärke, der Geschwindigkeit, sowie in der Beständigkeit der vermittelten Inhibition unterscheiden. Die Aktivität der Inhibitoren konnte auf den isolierten nukleären Exportsignalen (NES) von HIV-1 Rev und Survivin als auch auf den entsprechenden Volllängeproteinen mittels Mikroinjektionsexperimenten sowie durch umfassende in vitro und biochemische Methoden bestätigt werden. Zur Untersuchung der funktionellen Einheiten der Inhibitoren wurden homologe Substanzen auf Ihre Aktivität hin getestet. Dabei konnten für die Aktivität wichtige chemische Gruppen definiert werden. Alle Substanzen stellen neue Inhibitoren des Crm1-abhängigen Exports dar und zeigen keine nachweisbare NES-Selektivität. Interessanterweise konnte jedoch eine zytotoxische und Apoptose-induzierende Wirkung auf verschiedene Krebszellarten festgestellt werden. Da diese Wirkung unabhängig vom p53-Status der Tumorzellen ist und die Inhibitoren C3 und C5 die Vitalität nicht-maligner humaner Zellen signifikant weniger beeinträchtigen, wurden diese Substanzen zum internationalen Patent angemeldet. Da der nukleäre Export besonders für Tumorzellen einen wichtigen Überlebenssignalweg darstellt, könnte dessen reversible Hemmung ausgenutzt werden, um besonders in Kombination mit gängigen Krebstherapien eine therapeutisch relevante Tumorinhibition zu erzeugen. Eine weitere Anwendungsmöglichkeit der neuen Exportinhibitoren ist auf dem Gebiet der Infektionskrankheiten zu sehen, da auch die Aktivität des essentiellen HIV-1 Rev-Proteins inhibiert wird. Zusätzlich konnte in der Arbeit gezeigt werden, dass der zelluläre Kofaktor des Crm1-abhängigen Exports des HIV-1 Rev-Proteins, die RNA-Helikase DDX3, ein eigenes NES enthält. Der Nachweis einer direkten Interaktion des HIV-1 Rev- mit dem DDX3-Protein impliziert, dass multiple Angriffstellen für chemische Modulatoren hinsichtlich einer antiviralen Therapie gegeben sind. Da die Vielfalt des chemischen Strukturraums es unmöglich macht diesen experimentell vollständig zu durchmustern, wurden im Rahmen dieser Arbeit auch Naturstoffe als vielversprechende Wirkstoffquelle untersucht. Um zukünftig umfassend bioaktive Substanzen aus diesen hochkomplexen Stoffgemischen experimentell identifizieren zu können, wurde eine Fluoreszenzmikroskopie-basierte Hochdurchsatzanalyse-Plattform am Mainz Screening Center (MSC) etabliert. Damit konnte bereits ein weiterer, bisher unbekannter Exportinhibitor aus Cyphellopsis anomala identifiziert werden. Neben einer Anwendung dieser Substanz als chemisches Werkzeug zur Aufklärung der Regulation von Transportvorgängen, stellt sich auch die evolutionsbiologisch relevante Frage, wie es dem Pilzproduzenten gelingt die Blockierung des eigenen Kernexports zu umgehen. Weiterführende Projekte müssen sich neben der Aufklärung der molekularen Wirkmechanismen der gefundenen Substanzen mit der Identifizierung spezifischer chemischer „Funktionseinheiten“ beschäftigen. Neben einem verbesserten mechanistischen Verständnis von Transportvorgängen stellen die erarbeiteten Transportinhibitoren Vorstufen zur Weiterentwicklung möglicher Wirkstoffe dar. Die im Rahmen dieser Arbeit etablierte Technologie-Plattform und molekularen Werkzeuge stellen darüber hinaus eine wichtige Voraussetzung dar, um eine systematische Suche nach möglichen Wirkstoffen im Forschungsfeld der „Chemischen Biomedizin“ voranzutreiben.

Synthesis of constrained peptidomimetics for therapeutic, diagnostic and theranostic applications

This thesis work deals, principally, with the development of different chemical protocols ranging from environmental sustainability peptide synthesis to asymmetric synthesis of modified tryptophans to a series of straightforward procedures for constraining peptide backbones without the need for a pre-formed scaffold. Much efforts have been dedicated to the structural analysis in a biomimetic environment, fundamental for predicting the in vivo conformation of compounds, as well as for giving a rationale to the experimentally determined bioactivity. The conformational analyses in solution has been done mostly by NMR (2D gCosy, Roesy, VT, titration experiments, molecular dynamics, etc.), FT-IR and ECD spectroscopy. As a practical application, 3D rigid scaffolds have been employed for the synthesis of biological active compounds based on peptidomimetic and retro-mimetic structures. These mimics have been investigated for their potential as antiflammatory agents and actually the results obtained are very promising. Moreover, the synthesis of Amo ring permitted the development of an alternative high effective synthetic pathway for obtaining Linezolid antibiotic. The final section is, instead, dedicated to the construction of a new biosensor based on zeolite L SAMs functionalized with the integrin ligand c[RGDfK], that has showed high efficiency for the selective detection of tumor cells. Such kind of sensor could, in fact, enable the convenient, non-invasive detection and diagnosis of cancer in early stages, from a few drops of a patient's blood or other biological fluids. In conclusion, the researches described herein demonstrate that the peptidomimetic approach to 3D definite structures, allows unambiguous investigation of the structure-activity relationships, giving an access to a wide range bioactive compounds of pharmaceutical interest to use not only as potential drugs but also for diagnostic and theranostic applications.

Biodiversity and chemodiversity: future perspectives in bioprospecting

Biological diversity and its constituent chemical diversity have served as one of the richest sources of bioprospecting leading to the discovery of some of the most important bioactive molecules for mankind. Despite this excellent record, in the recent past, however, bioprospecting of biological resources has met with little success; there has been a perceptible decline in the discovery of novel bioactive compounds. Several arguments have been proposed to explain the current poor success in bioprospecting. Among them, it has been argued that to bioprospect more biodiversity may not necessarily be productive, considering that chemical and functional diversity might not scale with biological diversity. In this paper, we offer a critique on the current perception of biodiversity and chemodiversity and ask to what extent it is relevant in the context of bioprospecting. First, using simple models, we analyze the relation among biodiversity, chemodiversity and functional redundancies in chemical plans of plants and argue that the biological space for exploration might still be wide open. Second, in the context of future bioprospecting, we argue that brute-force high throughput screening approaches alone are insufficient and cost ineffective in realizing bioprospecting success. Therefore, intelligent or non-random approaches to bioprospecting need to be adopted. We review here few examples of such approaches and show how these could be further developed and used in the future to accelerate the pace of discovery.

Botanical drugs, synergy, and network pharmacology: forth and back to intelligent mixtures

For centuries the science of pharmacognosy has dominated rational drug development until it was gradually substituted by target-based drug discovery in the last fifty years. Pharmacognosy stems from the different systems of traditional herbal medicine and its "reverse pharmacology" approach has led to the discovery of numerous pharmacologically active molecules and drug leads for humankind. But do botanical drugs also provide effective mixtures? Nature has evolved distinct strategies to modulate biological processes, either by selectively targeting biological macromolecules or by creating molecular promiscuity or polypharmacology (one molecule binds to different targets). Widely claimed to be superior over monosubstances, mixtures of bioactive compounds in botanical drugs allegedly exert synergistic therapeutic effects. Despite evolutionary clues to molecular synergism in nature, sound experimental data are still widely lacking to support this assumption. In this short review, the emerging concept of network pharmacology is highlighted, and the importance of studying ligand-target networks for botanical drugs is emphasized. Furthermore, problems associated with studying mixtures of molecules with distinctly different pharmacodynamic properties are addressed. It is concluded that a better understanding of the polypharmacology and potential network pharmacology of botanical drugs is fundamental in the ongoing rationalization of phytotherapy.

OMA and OPA—Software-Supported Mass Spectra Analysis of Native and Modified Nucleic Acids

The platform-independent software package consisting of the oligonucleotide mass assembler (OMA) and the oligonucleotide peak analyzer (OPA) was created to support the analysis of oligonucleotide mass spectra. It calculates all theoretically possible fragments of a given input sequence and annotates it to an experimental spectrum, thus, saving a large amount of manual processing time. The software performs analysis of precursor and product ion spectra of oligonucleotides and their analogues comprising user-defined modifications of the backbone, the nucleobases, or the sugar moiety, as well as adducts with metal ions or drugs. The ability to expand the library of building blocks and to implement individual structural variations makes it extremely useful for supporting the analysis of therapeutically active compounds. The functionality of the software tool is demonstrated on the examples of a platinated doublestranded oligonucleotide and a modified RNA sequence. Experiments also reveal the unique dissociation behavior of platinated higher-order DNA structures.

Phospholipid oxidation generates potent anti-inflammatory lipid mediators that mimic structurally related pro-resolving eicosanoids by activating Nrf2.

Exposure of biological membranes to reactive oxygen species creates a complex mixture of distinct oxidized phospholipid (OxPL) species, which contribute to the development of chronic inflammatory diseases and metabolic disorders. While the ability of OxPL to modulate biological processes is increasingly recognized, the nature of the biologically active OxPL species and the molecular mechanisms underlying their signaling remain largely unknown. We have employed a combination of mass spectrometry, synthetic chemistry, and immunobiology approaches to characterize the OxPL generated from the abundant phospholipid 1-palmitoyl-2-arachidonoyl-sn-glycero-3-phosphocholine (PAPC) and investigated their bioactivities and signaling pathways in vitro and in vivo. Our study defines epoxycyclopentenones as potent anti-inflammatory lipid mediators that mimic the signaling of endogenous, pro-resolving prostanoids by activating the transcription factor nuclear factor E2-related factor 2 (Nrf2). Using a library of OxPL variants, we identified a synthetic OxPL derivative, which alleviated endotoxin-induced lung injury and inhibited development of pro-inflammatory T helper (Th) 1 cells. These findings provide a molecular basis for the negative regulation of inflammation by lipid peroxidation products and propose a novel class of highly bioactive compounds for the treatment of inflammatory diseases.

Similarity Mapplet: Interactive Visualization of the Directory of Useful Decoys and ChEMBL in High Dimensional Chemical Spaces

An Internet portal accessible at www.gdb.unibe.ch has been set up to automatically generate color-coded similarity maps of the ChEMBL database in relation to up to two sets of active compounds taken from the enhanced Directory of Useful Decoys (eDUD), a random set of molecules, or up to two sets of user-defined reference molecules. These maps visualize the relationships between the selected compounds and ChEMBL in six different high dimensional chemical spaces, namely MQN (42-D molecular quantum numbers), SMIfp (34-D SMILES fingerprint), APfp (20-D shape fingerprint), Xfp (55-D pharmacophore fingerprint), Sfp (1024-bit substructure fingerprint), and ECfp4 (1024-bit extended connectivity fingerprint). The maps are supplied in form of Java based desktop applications called “similarity mapplets” allowing interactive content browsing and linked to a “Multifingerprint Browser for ChEMBL” (also accessible directly at www.gdb.unibe.ch) to perform nearest neighbor searches. One can obtain six similarity mapplets of ChEMBL relative to random reference compounds, 606 similarity mapplets relative to single eDUD active sets, 30 300 similarity mapplets relative to pairs of eDUD active sets, and any number of similarity mapplets relative to user-defined reference sets to help visualize the structural diversity of compound series in drug optimization projects and their relationship to other known bioactive compounds.

Future water quality monitoring--adapting tools to deal with mixtures of pollutants in water resource management.

Environmental quality monitoring of water resources is challenged with providing the basis for safeguarding the environment against adverse biological effects of anthropogenic chemical contamination from diffuse and point sources. While current regulatory efforts focus on monitoring and assessing a few legacy chemicals, many more anthropogenic chemicals can be detected simultaneously in our aquatic resources. However, exposure to chemical mixtures does not necessarily translate into adverse biological effects nor clearly shows whether mitigation measures are needed. Thus, the question which mixtures are present and which have associated combined effects becomes central for defining adequate monitoring and assessment strategies. Here we describe the vision of the international, EU-funded project SOLUTIONS, where three routes are explored to link the occurrence of chemical mixtures at specific sites to the assessment of adverse biological combination effects. First of all, multi-residue target and non-target screening techniques covering a broader range of anticipated chemicals co-occurring in the environment are being developed. By improving sensitivity and detection limits for known bioactive compounds of concern, new analytical chemistry data for multiple components can be obtained and used to characterise priority mixtures. This information on chemical occurrence will be used to predict mixture toxicity and to derive combined effect estimates suitable for advancing environmental quality standards. Secondly, bioanalytical tools will be explored to provide aggregate bioactivity measures integrating all components that produce common (adverse) outcomes even for mixtures of varying compositions. The ambition is to provide comprehensive arrays of effect-based tools and trait-based field observations that link multiple chemical exposures to various environmental protection goals more directly and to provide improved in situ observations for impact assessment of mixtures. Thirdly, effect-directed analysis (EDA) will be applied to identify major drivers of mixture toxicity. Refinements of EDA include the use of statistical approaches with monitoring information for guidance of experimental EDA studies. These three approaches will be explored using case studies at the Danube and Rhine river basins as well as rivers of the Iberian Peninsula. The synthesis of findings will be organised to provide guidance for future solution-oriented environmental monitoring and explore more systematic ways to assess mixture exposures and combination effects in future water quality monitoring.

Intraspecific facilitation by allelochemical mediated grazing protection within a toxigenic dinoflagellate population, link to supplementary material

Dinoflagellates are a major cause of harmful algal blooms, with consequences for coastal marine ecosystem functioning and services. Alexandrium tamarense is one of the most abundant and widespread toxigenic species in the temperate northern and southern hemisphere, and produces paralytic shellfish poisoning toxins as well as lytic allelochemical substances. These bioactive compounds may support the success of A. tamarense and its ability to form blooms. Here we investigate the impact of grazing on monoclonal and mixed set-ups of highly (Alex2) and moderately (Alex4) allelochemically active A. tamarense strains and on a non-allelochemically active conspecific (Alex5) by the heterotrophic dinoflagellate Polykrikos kofoidii. While Alex4 and particularly Alex5 were strongly grazed by P. kofoidii when offered alone, both strains grew well in the mixed assemblages (Alex4+Alex5 and Alex2+Alex5). Hence, the allelochemical active strains facilitated growth of the non-active strain by protecting the population as a whole against grazing. Based on our results, we argue that facilitation among clonal lineages within a species may partly explain the high genotypic and phenotypic diversity of Alexandrium populations. Populations of Alexandrium may comprise multiple cooperative traits that act in concert with intraspecific facilitation, and hence promote the success of this notorious harmful algal bloom species.

Desenvolvimento de matrizes poliméricas como veículo de ácido ascórbico: caracterização e avaliação da estabilidade

A administração de princípios ativos pela mucosa oral é uma forma eficiente para a distribuição de fármacos e nutrientes, oferecendo diversas vantagens como uma fácil aplicação, evitando o metabolismo de primeira passagem hepática e potencialmente melhorando a biodisponibilidade dessas substâncias. A acerola e o camu-camu apresentam uma alta concentração de vitamina C e são consideradas fontes de diferentes compostos ativos, porém a vitamina C presente nas frutas é facilmente oxidada pelos fatores ambientais, e essas frutas são pouco acessíveis ao consumo populacional. Filmes de desintegração oral (FDO) podem apresentar rápido tempo de desintegração e fácil administração, o que os torna um material interessante para a veiculação de compostos com atividades farmacêuticas ou nutricionais. Assim, este trabalho teve como objetivo o desenvolvimento e caracterização de filmes de desintegração oral à base de amido e gelatina com adição de extrato seco de acerola e camu-camu produzidos por \"spray dryer\" como uma alternativa para a administração de vitamina C. Os FDOs foram produzidos pela técnica de casting, variando-se a proporção de amido e gelatina. Como plastificante foi utilizado o sorbitol (20 g / 100 g de polímero), mantendo-se constante a concentração de polímeros (2 g /100 g de solução filmogênica) e de extrato seco de acerola (4 g /100 g de solução filmogênica) e camu-camu (4 g / 100 g de solução filmogênica). Os extratos secos de acerola e camu-camu foram caracterizados com relação à concentração da vitamina C e da estabilidade desses extratos nessas condições (30 °C, UR 75 % e 40 °C, UR 75%). Os FDOs foram caracterizados em relação a espessura, propriedades mecânicas, ângulo de contato, FT-IR, microscopia electrônica de varredura, concentração de vitamina C, atividade antioxidante, atividade antimicrobiana, estabilidade da vitamina C, tempo de desintegração, estabilidade da atividade de eliminação de radicais de DPPH•, avaliação sensorial. Os extratos secos apresentaram uma boa estabilidade em relação à vitamina C e aos compostos antioxidantes (sequestro do radical DPPH•). Os FDOs sem adição de extrato, independente da formulação, mostraram-se homogêneos, com ausência de partículas insolúveis e alta capacidade de formação de filme. Para os FDOs com maior concentração de amido foi observado reduzido tempo de desintegração e pH próximo ao bucal. Após a adição dos extratos, os FDOs apresentaram redução do tempo de desintegração, boa aceitação sensorial, propriedades antioxidantes e estabilidade pelo sequestro do radical DPPH•. O pH de superfície dos filmes com adição de extrato seco de acerola foi mais próximo ao bucal quando comparado com os filmes com camu-camu. No entanto, os FDOs com acerola apresentaram reduzida estabilidade da vitamina C em relação ao tempo de armazenamento, enquanto que os filmes com camu-camu apresentaram melhor estabilidade. De modo geral, na formulação produzida apenas com amido (100 g de amido / 100 g de polímeros) observou-se uma maior concentração da vitamina C no final da estabilidade realizada à 30 °C e umidade relativa de 75 %, elevada estabilidade dos compostos ativos (DPPH) e alta taxa de uniformidade na distribuição da vitamina C no filme de desintegração oral. Dessa forma, os FDOs podem ser considerados uma boa alternativa para a suplementação de vitamina C.