A robust algorithm for segmenting fluorescence images and its application to single-molecule counting

Boisvert, Jacques

12 1900

La microscopie par fluorescence de cellules vivantes produit de grandes quantités de données. Ces données sont composées d’une grande diversité au niveau de la forme des objets d’intérêts et possèdent un ratio signaux/bruit très bas. Pour concevoir un pipeline d’algorithmes efficaces en traitement d’image de microscopie par fluorescence, il est important d’avoir une segmentation robuste et fiable étant donné que celle-ci constitue l’étape initiale du traitement d’image. Dans ce mémoire, je présente MinSeg, un algorithme de segmentation d’image de microscopie par fluorescence qui fait peu d’assomptions sur l’image et utilise des propriétés statistiques pour distinguer le signal par rapport au bruit. MinSeg ne fait pas d’assomption sur la taille ou la forme des objets contenus dans l’image. Par ce fait, il est donc applicable sur une grande variété d’images. Je présente aussi une suite d’algorithmes pour la quantification de petits complexes dans des expériences de microscopie par fluorescence de molécules simples utilisant l’algorithme de segmentation MinSeg. Cette suite d’algorithmes a été utilisée pour la quantification d’une protéine nommée CENP-A qui est une variante de l’histone H3. Par cette technique, nous avons trouvé que CENP-A est principalement présente sous forme de dimère. / Live-cell fluorescence microscopy produces high amounts of data with a high variability in shapes at low signal-to-noise ratio. An efficient design of image analysis pipelines requires a reliable and robust initial segmentation step that needs little parameter fine-tuning. Here, I present a segmentation algorithm called MinSeg for fluorescence image data that relies on minimal assumptions about the image, and uses statistical considerations to distinguish signal from background. More importantly, the algorithm does not make assumptions about feature size or shape, and is thus universally applicable. I also present a pipeline for the quantification of small complexes with single-molecule fluorescence microscopy using this segmentation algorithm as the first step of the workflow. This pipeline was used for the quantification of a small histone H3 variant protein called CENP-A. We found that the CENP-A nucleosomes are dimers.

Segmentation

Image processing

Fluorescence microscopy

Centromere

Traitement d’image

Microscopie par fluorescence

Centromère

Spectrally resolved, three-dimensional widefield microscopy

Jahr, Wiebke

26 June 2017

A major goal in biological imaging is to visualize interactions of different tissues, often fluorescently labeled, during dynamic processes. Only a few of these labels fit into the available spectral range without overlap, but can be separated computationally if the full spectrum of every single pixel is known. In medical imaging, hyperspectral techniques show promise to identify different tissue types without any staining. Yet, microscopists still commonly acquire spectral information either with filters, thus integrating over a few broad bands only, or point-wise, dispersing the spectra onto a multichannel detector, which is inherently slow. Light sheet fluorescence microscopy (LSFM) and optical projection tomography (OPT) are two techniques to acquire 3D microscopic data fast, photon-efficiently and gently on the specimen. LSFM works in fluorescence mode and OPT in transmission. Both are based on a fast widefield detection scheme where a 2D detector records the spatial information but leaves no room to acquire dispersed spectra. Hyperspectral imaging had not yet been demonstrated for either technique. In this work, I developed a line-scanning hyperspectral LSFM and an excitation scanning OPT to acquire 5D data (3D spatial, 1D temporal, 1D spectral) and optimized the performance of both setups to minimize acquisition times without sacrificing image contrast, spatial or spectral information. I implemented and assessed different evaluation pipelines to classify and unmix relevant features. I demonstrate the efficiency of my workflow by acquiring up to five fluorescent markers and the autofluorescence in \\zf and fruit fly embryos on my hyperspectral LSFM. I extracted both concentration maps and spectra for each of these fluorophores from the multidimensional data. The same methods were applied to investigate the transmission data from my spectral OPT, where I found evidence that OPT image formation is governed by refraction, whereas scattering and absorption only play a minor role. Furthermore, I have implemented a robust, educational LSFM on which laymen have explored the working principles of modern microscopies. This eduSPIM has been on display in the Technische Sammlungen Dresden for one year during the UNESCO international year of light. / Ein wichtiges Ziel biologischer Bildgebung ist die Visualisierung des Zusammenspiels von verschiedenen, meist fluoreszent markierten, Geweben bei dynamischen Prozessen. Nur wenige dieser Farbstoffe passen ohne Überlapp in das zur Verfügung stehende Spektrum. Sie können jedoch rechnerisch getrennt werden, wenn das gesamte Spektrum jedes Pixels bekannt ist. In medizinischen Anwendungen versprechen hyperspektrale Techniken, verschiedene Gewebetypen markierungsfrei zu identifizieren. Dennoch ist es in der Mikroskopie noch immer üblich, spektrale Information entweder mit Filtern über breiten Bändern zu integrieren, oder Punktspektren mithilfe von Dispersion zu trennen und auf einem Multikanaldetektor aufzunehmen, was inhärent langsam ist. Light Sheet Fluorescence Microscopy (LSFM) und Optical Projection Tomography (OPT) nehmen 3D Mikroskopiedaten schnell, photoneneffizient und sanft für die Probe auf. LSFM arbeitet mit Fluoreszenz, OPT in Transmission. Beide basieren auf schneller Weitfelddetektion, wobei die räumliche Information mit einem 2D Detektor aufgenommen wird, der keinen Raum lässt, um die getrennten Spektren zu messen. Hyperspektrale Bildgebung wurde bis jetzt für keine der zwei Techniken gezeigt. Ich habe ein hyperspektrales LSFM mit Linienabtastung und ein OPT mit Wellenlängenabtastung entwickelt, um 5D Daten (3D räumlich, 1D zeitlich, 1D spektral) aufzunehmen. Beide Aufbauten wurden hinsichtlich minimaler Aufnahmezeit optimiert, ohne dabei Kontrast, räumliche oder spektrale Auflösung zu opfern. Ich habe verschiedene Abläufe zum Klassifizieren und Trennen der Hauptkomponenten implementiert. Ich nehme bis zu fünf Fluorophore und Autofluoreszenz in Zebrafisch- und Fruchtfliegenembryos mit dem hyperspektralen LSFM auf und zeige die Effizienz des gesamten Ablaufes, indem ich Spektren und räumliche Verteilung aller Marker extrahiere. Die Transmissionsdaten des spektralen OPT werden mit denselben Methoden untersucht. Ich konnte belegen, dass die Bildformation im OPT massgeblich von Brechung bestimmt ist, und Streuung und Absorption nur einen geringen Beitrag leisten. Außerdem habe ich ein robustes, didaktisches LSFM gebaut, damit Laien die Funktionsweise moderner Mikroskopie erkunden können. Dieses eduSPIM war ein Jahr lang in den Technischen Sammlungen Dresden ausgestellt.

Microskopie

Lichtscheibenfluoreszenzmikroskopie

Optische Projektionstomographie

Hyperspektrale Bildgebung

Microscopy

Light Sheet Fluorescence Microscopy

Optical Projection Tomography

Hyperspectral Imaging

ddc:570

rvk:VG 8757

Caractérisation moléculaire du systeme de secrétion de type VI d'escherichia coli enteroagrégatif et de ses mécanismes de régulation . / Structure and function of the type vi secretion system tail

Brunet, Yannick

09 July 2013

Résumé : La compréhension des contraintes qui régissent l'assemblage des machineries supramoléculaires – qu'elles soient solubles ou bien ancrées dans les membranes biologiques – est un enjeu scientifique majeur.Le système de de sécrétion type VI (T6SS) est un organelle bactérien récemment mis en évidence qui a pour particularité de posséder une origine évolutive commune avec le bactériophage T4. En raison de cette origine évolutive commune, certaines sous unités du T6SS et du bactériophage T4 présentent des structures comparables. Cependant, un grand nombre des sous unités du T6SS reste à caractériser. Parmi celles-ci, les protéines SciB et SciC sont retrouvées dans tous les systèmes de sécrétion de type VI suggérant que ces deux protéines participent à la formation du "core-complexe": le complexe minimal requis pour le fonctionnement du T6SS. / The recently identified type VI secretion system has been demonstrated to be involved in most of these processes. The T6SS is a highly complex macromolecular machine that allows Gram-negative bacteria to deliver effector proteins to both prokaryotic and eukaryotic cells in a contact-dependent manner. The T6SS promotes therefore antibacterial competition, virulence towards eukaryotes or even both. The T6SS is composed of a minimal set of 13 subunits, which are currently believed to form the core apparatus. They assemble two distinct sub-complexes: one is a cytosolic contractile structure related to the tail of contractile bacteriophages, whereas the other spans the whole cell envelope. Therefore, the T6SS is generally depicted as an inverted phage tail anchored to the cell envelope through its membrane-associated complex. Contractile tails are currently thought to assemble from four structural elements: the baseplate, the internal tube, the contractile sheath and the tail terminator. The aim of my Ph.D. work was to further characterize the assembly and function of the T6SS phage tail-like complex in enteroaggregative E. coli. In this thesis document, I provide evidence that the internal tube assembles from Hcp hexamers stacked in a head-to-tail manner and that this internal cylinder is used as a template during sheath assembly. I also characterized a sub-complex of three proteins (TssEFG) that forms the baseplate of the T6SS and controls the polymerization of the tube and sheath. Finally, I recently showed that the T6SS functions like a nano-crossbow to kill target cells as the contraction of the T6SS results in prey cell death during interbacterial competition.

SST6

Compétition interbactérienne

Bactériophages

Plateforme d'assemblage

Microscope fluorescent

T6SS

Inyterbacterial competition

Contractile bacteriophages

Assembly baseplate

Fluorescence microscopy

579

Systematics and molecular characterization of new myxosporean species parasites of Colossoma macropomum and Piaractus brachypomus from the Amazon basin and remarks on mitochondrial behavior in myxosporeans / Sistemática e caracterização molecular de novas espécies de mixosporídeos parasitos de Colossoma macropomum e Piaractus brachypomus da bacia Amazônica e observações sobre o comportamento mitocondrial em mixosporídeos

Capodifoglio, Kassia Roberta Hygino

09 May 2019

The Amazon basin has about 7000 km2 of extension and a vast biodiversity providing an ichthyofauna of approximately 5000 species of fish. Myxozoan parasites cause diseases in fish in both the natural environment and the breeding systemand they are responsible for high mortality rates. Myxozoans show a great diversity of species with some of them, highly pathogenic and, therefore, have been receiving attention of the researchers. In Brazil, due to the great diversity of fish species, the study of these parasites has been gaining the attention of the researchers, focusing on diversity, biology and parasite-host interaction. In this context, the objective of this work was to explore the parasite diversity of the Myxozoa subphylum, through morphological and molecular analyses of myxosporean parasites of Amazonian fish, important for the food market such as Colossoma macropomum (tambaqui) and Piaractus brachypomus (pirapitinga). For the taxonomic study, morphological analyses were performed using light microscopy and molecular analyses using ssrDNA. The fish were captured in the Amazon basin, in the Tapajós and Solimões Rivers, Santarém, PA and Manaus, AM, respectively. Two new myxosporean species, Myxobolus n. sp. 1 and Myxobolus n. sp. 2, were described infecting C. macropomum, based on morphological and molecular data. Myxobolus colossomatis, found infecting C. macropomum, was considered a distinct species of Myxobolus cf. colossomatis described in Piaractus mesopotamicus, through molecular and phylogenetic data. For P. brachypomus four new species were described. Henneguya n. sp. 1 and Myxobolus n. sp. 3, were described through of morphological, histological, ultra-structural and molecular analyses. Henneguya n. sp. 2 and Myxobolus n. sp. 4 were described based in morphological and molecular data. After observing the mitochondrial behavior of myxospores through electron microscopy studies, we performed an experiment of mitochondrial fluorescence microscopy and the results showed that few Henneguya sp. myxospores presented labeling for mitochondrial activity. / A bacia Amazônica tem cerca de 7000 km2 de extensão e uma vasta biodiversidade abrigando uma ictiofauna de, aproximadamente, 5000 espécies de peixes. Parasitos mixozoários são causadores de doenças em peixes de ambiente natural e de sistemas de criação sendo responsáveis por altas taxas de mortalidade. Mixosporídeos apresentam uma grande diversidade de espécies com algumas destas, altamente patogênicas e, por isso, vêm recebendo atenção dos pesquisadores. No Brasil, devido à grande diversidade de espécies de peixes, o estudo destes parasitos vem ganhando cada vez mais destaque, com foco para a diversidade, biologia e a interação parasito-hospedeiro. Neste contexto, o objetivo deste trabalho foi explorar a diversidade de parasitos do subfilo Myxozoa, através de análises morfológicas e moleculares de mixosporídeos parasitos de peixes amazônicos, importantes para o mercado de alimentos como Colossoma macropomum (tambaqui) e Piaractus brachypomus (pirapitinga). Para o estudo taxonômico foram realizadas análises morfológicas, utilizando microscopia de luz, e análises moleculares utilizando o sequenciamento do ssrDNA. Os peixes foram capturados na bacia Amazônica, nos rios Tapajós e Solimões, Santarém, PA e Manaus, AM, respectivamente. Duas novas espécies de mixosporídeos, Myxobolus sp. n. 1 e Myxobolus sp. n. 2, foram descritas infectando C. macropomum, baseado em dados morfológicos e moleculares. Myxobolus colossomatis encontrada infectando C. macropomum foi considerada uma espécie distinta de Myxobolus cf. colossomatis descrita em Piaractus mesopotamicus, através de dados moleculares e filogenéticos. Para P. brachypomus quatro novas espécies foram descritas. Henneguya sp. n. 1 e Myxobolus sp. n. 3 foram descritas através de análises morfológicas, histológicas, ultra-estruturais e moleculares. Henneguya sp. n. 2 e Myxobolus sp. n. 4 foram descritas baseadas em dados morfológicos e moleculares. Após a observação do comportamento mitocondrial de mixosporídeos através de estudos de microscopia eletrônica, nós realizamos um experimento de microscopia de fluorescência mitocondrial e os resultados obtidos demonstraram que poucos mixosporos de Henneguya sp. apresentaram marcação para a atividade mitocondrial.

Amazon River

Mitochondrial fluorescence microscopy

Myxozoa

Myxozoa

Pirapitinga

Pirapitinga

Rio Amazonas

ssrDNA

ssrDNA

Tambaqui

Tambaqui

Polyrotaxanes de cyclodextrines pour des applications biomédicales / Cyclodextrin-based polyrotaxanes for biomedical applications

Scelle, Jérémy

04 November 2016

Ce projet de thèse s'inscrit dans une dynamique de développement des polyrotaxanes de cyclodextrines pour des applications biomédicales. L'objectif est d'obtenir, par une approche modulaire et convergente, des polyrotaxanes fonctionnalisés pour l'imagerie par microscopie optique dans le proche infrarouge et l'IRM. Une bibliothèque de cyclodextrines fonctionnalisées a été générée par CuAAC entre des fluorophores (BODIPY, Cyanine) ou un agent de contraste (monoamide-DOTA-Gd) et des ?-cyclodextrines mono- ou bis-azotures. Leurs propriétés d'auto-assemblage ont été étudiées sur un axe court et ont permis le développement de [3]rotaxanes fonctionnalisés pour l'IRM dont les expérimentations in vivo ont démontré l'apport bénéfique de la structure supramoléculaire pour les propriétés d'agent de contraste. L'extension de l'architecture aux polyrotaxanes multimodaux a été réalisée par l'utilisation d'un axe polyammonium. Une nouvelle classe d'axes anioniques a été développée avec l'étude cinétique et thermodynamique de l'enfilage sélectif d'une ou deux cyclodextrines sur des monomères diphosphates et montre l'intérêt des pseudo-bouchons phosphates pour le contrôle de la barrière d'activation par le pH. L'extension à une structure pseudopolyrotaxane est obtenue par la synthèse d'un poly(hexylène phosphate) et permet de valider l'utilisation du polymère pour la synthèse de composés fonctionnalisés. En perspective de ces développements, des voies de post-fonctionnalisation des polyrotaxanes, une nouvelle voie de synthèse par polymérisation de pseudo-rotaxanes et l'obtention d'une cyclodextrine pour le relargage contrôlé par stimuli acido-basiques sont abordées. / This PhD project is focused on the development of cyclodextrin-based polyrotaxanes for biomedical applications. The objective is to use a modular building-block approach to synthesize functionalized polyrotaxanes for NIR fluorescence and magnetic resonance imaging. A library of functionalized cyclodextrins was obtained by a versatile ‘click’ reaction between fluorescent probes (BODIPY, Cyanine) or contrast agent (GdDOTA-monoamide) and mono- or bis-azido α-cyclodextrins. Their self-assembly properties were first studied on short axles and allowed the development of functionalized [3]rotaxanes for MRI. In vitro and in vivo studies demonstrated the advantages of the supramolecular approach for the design of contrast agent with an enhancement of the relaxivities and better retention times in kidneys. The strategy was extended to obtain multimodal polyrotaxane architectures based on a poly(alkyl)ammonium thread. A new family of anionic threads based on alkylphosphate moieties was also developed. Thorough kinetic and thermodynamic studies revealed the ability of phosphates to act as pH-responsive stoppers enabling a selective threading of one or two cyclodextrins on small alkanediphosphate threads. Pseudopolyrotaxanes of α-CD were then obtained with poly(hexylene phosphate) and pave the way for the synthesis of functionalized ones. Finally, significant investigations in the post-functionalization of polyrotaxanes, polymerization of pseudo-rotaxanes as new synthetic pathway and pH-switchable rotaxane for controlled release were realized.

Cyclodextrine

Polyrotaxane

Poly(alkylène phosphate)

Polyammonium

Cyanine

Microscopie de fluorescence

Agent de contraste IRM

Cyclodextrin

Polyrotaxane

Fluorescence microscopy

541.2

Formování sestřihového komplexu v kontextu buněčného jádra / Formation of splicing machinery in the context of the cell nucleus

Stejskalová, Eva

January 2015

Most of the protein coding genes of higher eukaryotes contain introns which have to be removed from primary transcripts to make mRNA which can be used as a template for protein synthesis. This crucial step in the pre-mRNA processing is carried out by the spliceosome, a complex ribonucleoprotein machine formed from small ribonucleoprotein particles (snRNPs). snRNPs biogenesis is a complex process composed of several steps which take place in both the cytoplasm and the nucleus. Spliceosome assembly is highly dynamic and tightly regulated and pre-mRNA splicing depends not only on the sequence of the pre-mRNA itself but also on the nuclear context, such as the chromatin modifications. How do cells regulate where and when the spliceosome would be assembled? What determines which introns will be spliced? These are fundamental, yet unanswered, biological questions. In this work we analyzed the formation of splicing machinery in the context of the cell nucleus from several different points of view. First, we investigated the unexpected connection between splicing factor U1-70K and the survival of motor neurons (SMN) complex which is a major player in the snRNP biogenesis pathway. We revealed that U1-70K interacts with the SMN complex and that this interaction is crucial for the stability of nuclear gems, small...

Pince optique et microscopie de fluorescence pour l'étude de la synthèse des protéines en molécule unique / Optical tweezer and fluorescence microscopy for the study of proteins synthesis at the single molecule level

Le Gall, Antoine

04 November 2011

Ce mémoire rapporte deux approches de la synthèse des protéines à l'échelle de la molécule unique. Nous utilisons la microscopie de fluorescence en onde évanescente pour sonder l'activité traductionnelle de deux types de ribosomes. Les premiers, issus d'E. Coli (organisme procaryote), sont mutés afin de les marquer d'un nanocristal semiconducteur (QD). La fin de la traduction, qui correspond au décrochage du ribosome de l'ARNm lorsque celui-ci atteint le codon stop, est alors mise en évidence par la disparition du QD de la surface de l'échantillon. Le deuxième type de ribosome étudié est quant à lui extrait de cellules de lapins (organisme eucaryote) et est dit "sauvage", c'est à dire qu'il n'a pas subi de modification, tandis qu'un oligonucléotide marqué d'un fluorophore est hybridé à l'ARNm. L'activité hélicase du ribosome lui permettant de séparer deux brins complémentaires, l'oligonucléotide et donc le fluorophore disparaissent en même temps que le ribosome parcourt l'ARNm, permettant ainsi de sonder l'activité du ribosome. Nous donnons pour ces deux types de ribosomes une vitesse moyenne de la traduction dans des milieux contenant les facteurs de la traduction issus d'extraits cellulaires.La deuxième approche de la synthèse des protéines porte sur les propriétés de l'ARNm, support de l'information génétique codant pour la séquence des protéines. Nous avons développé un montage de pince optique permettant de manipuler et caractériser les propriétés mécaniques d'oligonucléotides, ainsi qu'une méthode originale de calibration de ce piège optique. La cohérence de nos mesures sur l'étirement d'un double brin d'ADN avec la littérature nous permettra de poursuivre notre étude sur la mesure des forces nécessaires pour ouvrir une structure secondaire de l'ARNm. / We hereby report two approaches of the protein synthesis at the single molecule level. We use total internal reflection fluorescence microscopy to study the translation kinetic of two different types of ribosomes. The first ones, extracted from E. Coli (prokaryotic organism), are mutated in order to label them with a quantum dot (QD). The end of translation, which corresponds to the dissociation of the ribosome from the mRNA when the stop codon has been reached, is highlighted by the disparition of the QD from the surface. The second type of ribosome is extracted from rabbit cells (eukaryotic organism) and has not been modified (wild type), while a labeled oligonucleotide is hybridized on the mRNA. The helicase activity of the ribosome allowing the dissociation of two complementary strands, the oligonucleotide and so the label disappear at the same time while the ribosome moves along the mRNA and thus inform us about its activity. For these two types of ribosomes we measure their average translation speed in cell extracts.The second approach focuses on the properties of the mRNA, carrying the genetic code for the protein sequence. We developped an optical tweezer setup in order to manipulate and characterize the mechanical properties of nucleotides, as well as an original method to calibrate this optical trap. The consistency of our measurements with the litterature on the properties of a double stranded DNA will allow us to study secondary structures of mRNA.

Ribosome

Procaryote

Eucaryote

Molécule unique

Microscopie de fluorescence

Pince optique

Photoblanchiment

Ribosome

Prokaryotic

Eukaryotic

Single molecule

Fluorescence microscopy

Optical tweezers

Photobleaching

Propriedades estruturais de membranas modelo em interação com o composto anti-Leishmania miltefosina / Structural properties of model membranes in interaction with the leishmanicidal compound miltefosine

Barioni, Marina Berardi

22 September 2014

A leishmaniose é uma doença tropical negligenciada causada por diferentes espécies do gênero Leishmania que atinge grande parte da população mais pobre do mundo e sua manifestação visceral, que é fatal se não tratada, tem se alastrado atingindo grandes cidades, aumentando o número de pessoas com risco de infecção. Dentre os medicamentos em uso, está o análogo lipídico sintético hexadecilfosfocolina (miltefosina), administrado oralmente, que age nas membranas celulares do parasita e pode induzir apoptose, mas com modo de ação não totalmente esclarecido. O primeiro local de interação desse fármaco é a membrana celular do parasita, sendo importante o conhecimento da sua forma de interação. Neste trabalho examinamos propriedades de diversos modelos de membrana com diferentes composições, levando em consideração o conhecimento existente sobre a composição da membrana plasmática da Leishmania. Assim, as membranas modelo foram vesículas unilamelares grandes e gigantes (LUVs e GUVs), de fosfolipídios puros, de misturas binárias com fosfolipídios e colesterol e ainda misturas ternárias com ceramida, um esterol presente nas membranas de Leishmania. A interação com a miltefosina foi estudada em diferentes intervalos de concentração do fármaco. Como técnicas principais utilizamos a espectroscopia de fluorescência, estática e resolvida no tempo, a espectroscopia de correlação de fluorescência, microscopia de fluorescência e confocal e imagens por tempo de vida de fluorescência. Observou-se que a interação entre o fármaco e as membranas lipídicas ocorre de diferentes formas, dependendo i) da razão molar entre o fármaco e os lipídios; ii) da concentração real do fármaco, se abaixo ou acima da concentração micelar crítica (CMC); iii) da composição do modelo de membrana e da fase lipídica da bicamada. Em concentrações abaixo da CMC, a miltefosina tem efeito de fluidificação das bicamadas, principalmente quando elas se encontram em na fase gel, mas esse efeito é pouco pronunciado na presença de colesterol, pois esse composto protege a bicamada do efeito do fármaco. Em vesículas de misturas ternárias de fosfolipídio, colesterol e ceramida em alta concentração, não há separação de fases, e a presença de 10 mol% de miltefosina promove a formação de domínios de ceramida; nas vesículas em que a ceramida está em concentração molar mais baixa, formando domínios, a separação de fases fica menos evidente com o acréscimo de miltefosina. Em razões de concentração miltefosina/lipídio elevadas, mas ainda abaixo da CMC, observa-se diminuição no tamanho das vesículas, por formação de agregados de fármaco/lipídio com porções da bicamada. Em concentrações acima da CMC, ocorrem efeitos drásticos com solubilização de partes cada vez maiores da bicamada da membrana, e esses efeitos ocorrem em tempos menores quanto maior a concentração de miltefosina. Portanto, de maneira geral, o colesterol protege a bicamada do efeito da miltefosina, mas o fármaco tem efeito pronunciado em modelos de membrana de misturas ternárias contendo ceramida. Os efeitos variam com a concentração da miltefosina, com aumento da fluidez da bicamada em baixas razões fármaco/lipídios, solubilização de pequenas porções da bicamada e diminuição do tamanho das vesículas em razões maiores, mas ainda abaixo da CMC, e acima da CMC, formação de agregados do fármaco com porções dos lipídios da bicamada e fragmentação da membrana. / Leishmaniasis is a complex of diseases part of the neglected tropical diseases caused by several species of the genus Leishmania. It reaches a large part of the poorest people in the world and its visceral form, which is fatal if left untreated, has been spread around big cities, increasing the number of people at risk of infection. Among the used drugs for the treatment, there is the synthetic lipid analogue hexadecylphosphocholine (miltefosine), orally administrated, which acts in the cell membranes and can induce apoptosis like death, but its mechanism of action is not totally clear. The first interactions site of this drug is the cell membrane, and it is important to know its mechanism of interaction. In this work we explore properties of several membrane models with different compositions, taking into account the existent knowledge about the composition of the Leishmania plasma membrane. Therefore, the model membranes were giant and large unilamellar vesicles (GUVs and LUVs), formed from pure phospholipids, binary mixtures of phospholipids and cholesterol and ternary mixtures with ceramide, a sterol present in the Leishmania membranes. The interaction with miltefosine was studied in different intervals of drug concentration. The main techniques used were the steady-state and time-resolved fluorescence spectroscopy, fluorescence correlation spectroscopy, confocal and fluorescence microscopy and fluorescence lifetime imaging. The interaction depends on i) the molar ratio of drug and lipids; ii) the real concentration of the drug, if it is below or above the critical micelle concentration (CMC); iii) the composition of the model membrane and the lipid phase of the bilayer. In concentration below the CMC, miltefosine has an effect of bilayer fluidization, mainly when it is in a more ordered phase, but this effect is less pronounced in cholesterol presence, because this compound protects the bilayers from the drug effect. In vesicles from ternary mixtures of phospholipid, cholesterol and ceramide in high concentration, there is no phase separation, and the presence of 10 mol% of miltefosine promotes ceramide domains formation; in vesicles in which ceramide is in low concentration, forming domains, the phase separation is less evident with miltefosine addition. In high concentration ratio miltefosine/lipids, but below CMC, it is observed a decrease in vesicles size with drug/lipids aggregates formation from portion of the bilayer. In concentrations above the CMC, drastic effects occur, with solubilization of bigger portions of the membrane bilayer, and the effects occur in lower times for higher drug concentration. Therefore, generally, cholesterol protects bilayer from the effect of miltefosine, but the drug has a pronounced effect in model membranes of ternary mixtures containing ceramide. The effects vary with miltefosine concentration, increasing the bilayer fluidity in lower drug/lipid ratio, solubilization of small portions of the bilayer and decrease of vesicles size in higher ratios, but still below CMC, and above CMC, formation of aggregates of the drug with portions of bilayer lipids, and membrane fragmentation.

Espectroscopia de fluorescência

Fluorescence microscopy

Fluorescence spectroscopy

Leishmaniasis

Leishmaniose

Membranas modelo

Microscopia de fluorescência.

Miltefosina (hexadecilfosfocolina)

Miltefosine (hexadecylphosphocholine)

Model membranes

Mecanismos de ação de nanopartículas de prata no comportamento de propriedades mecânicas celulares / Mechanisms of action of silver nanoparticles in the behavior of cell mechanical properties

Sousa, Edi Carlos Pereira de

23 May 2018

Neste trabalho estudamos a interação de dois tipos de nanopartículas de prata metálica, obtidas pelo processo de poliol (IQUSP) e pelo método eletrolítico (Khemia®), em células de músculo liso. Um extenso trabalho de caracterização foi realizado, descrevendo a natureza físico-química dessas nanopartículas. Medidas de absorção óptica mostraram que as nanopartículas exibem bandas suaves em torno de 400 nm, região do azul do espectro eletromagnético, devido à ressonância dos plasmons de superfície, evidenciando a tendência à agregação com o tempo. Microscopia eletrônica de transmissão foi realizada para obter as imagens das nanopartículas em micrografias. Histogramas foram construídos para determinar o tamanho das NPs e o índice de polidispersividade. Espectros de EDS foram obtidos para a caracterização química das amostras. Difratogramas de raios X foram obtidos para as AgNPs. Os picos de difração foram indexados e revelaram uma única fase cristalina da prata, com estrutura cúbica e estado de oxidação, Ag0. Com o auxílio desses difratogramas, foram calculados o parâmetro de rede e a distância interplanar dos planos de difração. Utilizando a equação de Scherrer e um ajuste gaussiano dos picos de Ag mostrados nos difratogramas de raios X, foi possível obter o tamanho do cristalito para nanopartículas IQUSP. Experimentos de DLS mostraram distribuição de número monomodal para AgNPs Khemia® e, para AgNPs IQUSP lavadas, distribuição bimodal, estimando-se a distribuição de número e tamanho. Os resultados mostraram que a distribuição dominante é sempre para raios menores, sugerindo partículas menores que se agregam com o tempo e formam maiores dimensões. Resultados de SAXS mostraram que as amostras fornecem boa intensidade de espalhamento. Utilizando modelos teóricos foram calculados o raio médio da distribuição, polidispersividade e raio de giro. Os dados revelaram que as nanopartículas IQUSP possuem um raio maior que as AgNPs Khemia® e não apresentaram agregação. Em contrapartida, AgNPs Khemia® apresentaram maior agregação, com polidispersividade relativa de 72%. Para AgNPs IQ--USP, análises de SAXS forneceram tamanho de partícula comparável a TEM e bastante diferente de DLS. As medidas de SAXS para AgNPs Khemia® mostram diferenças com as medidas de TEM e DLS. Ficou evidente o efeito da agregação, que tem influências desde o preparo das amostras até o tempo de realização das medidas. Testes de citotocixidade e estudos de análise morfológica por microscopia de fluorescência evidenciaram as características citotóxicas de cada nanopartícula. Os resultados apresentados pela análise morfológica realizada com microscopia de fluorescência concordam com os testes de citotoxicidade. AgNPs IQUSP mostraram alta toxicidade até a concentração 9.37 mg/mL, onde as células são apresentadas com fragmentação nuclear. Em concentrações mais baixas, as AgNPs IQUSP exibiram características morfológicas comparáveis ao grupo controle. Por sua vez, AgNPs Khemia® mostram alta toxicidade até a concentração 1.37 mg/mL, com índice IC50 variando na faixa de 1.3 a 6.7 mg/mL. Foi possível observar que concentrações mais altas induzem à fragmentação nuclear, desencadeando processos como apoptose e necrose. Experimentos utilizando a técnica de OMTC demonstraram que as diferentes concentrações de nanopartículas de prata podem modificar a rigidez celular. Isto é evidenciado quando comparamos o grupo controle com os demais grupos, com as diferentes concentrações de NPs. Para concentrações mais altas de nanopartículas, verificou-se um aumento da viscoelasticidade. Os dois tipos de nanopartículas estudadas apresentaram mudanças nas propriedades mecânicas, mas as AgNPs Khemia® apresentaram um maior aumento na viscoelasticidade nas diferentes concentrações de NPs. Essa mudança na viscoelasticidade foi explicada como sendo devido à maior disponibilidade do cálcio, liberado por células apoptóticas, o qual é utilizado no complexo miosina-actina para gerar contração muscular. / In this work we study the interaction of two types of metallic silver nanoparticles, obtained by the polyol process (IQUSP) and the electrolytic method (Khemia®), in smooth muscle cells. An extensive characterization work was carried out, describing the physico-chemical nature of these nanoparticles. Optical absorption measurements showed that nanoparticles exhibit smooth bands around 400 nm, the blue region of the electromagnetic spectrum, due to the resonance of the surface plasmons, evidencing the tendency to aggregate with time. Transmission electron microscopy was performed to obtain images of the nanoparticles in micrographs. Histograms were constructed to determine the size of NPs and the index of polydispersity. EDS spectra were obtained for the chemical characterization of the samples. X-ray diffraction patterns were obtained for the AgNPs. The diffraction peaks have been indexed and showed a single crystal layer of silver, with cubic structure and oxidation state, Ag0. By means of these diffractograms, the network parameter and the interplanar distance of the diffraction planes were calculated. Using the Scherrer equation and a Gaussian fit of the Ag peaks shown in the X-ray diffractograms, it was possible to obtain the crystallite size for IQ-USP nanoparticles. DLS experiments showed monomodal number distribution for Khemia® AgNPs and, for washed IQUSP AgNPs, bimodal distribution, estimating the number and size distribution. The results showed that the dominant distribution is always for smaller rays, suggesting smaller particles that aggregate with time and form larger dimensions. SAXS results showed that the samples provide good scattering intensity. Using the theoretical models, the average radius of the distribution, polydispersity and radius of gyration were calculated. The data revealed that the IQUSP nanoparticles have a larger radius than the Khemia® and did not show aggregation. In contrast, Khemia® AgNPs showed higher aggregation, with 72% relative polydispersity. For IQ-USP AgNPs, SAXS analyzes provided particle size comparable to TEM and quite different from DLS. SAXS measurements for Khemia® AgNPs show differences with TEM and DLS measurements. It was evident the effect of the aggregation that has influences from the sample preparation until the time of performing the measurements. Cytotoxicity tests and morphological analysis studies by fluorescence microscopy evidenced the cytotoxic characteristics of each nanoparticle. The results presented by the morphological analysis performed with fluorescence microscopy agree with the cytotoxicity tests. IQ-USP nanoparticles showed high toxicity up to the concentration of 9.37 mg/mL, where the cells are presented with nuclear fragmentation. At lower concentrations, the IQUSP AgNPs exhibited morphological characteristics comparable to the control group. In addition, Khemia® AgNPs show high toxicity up to the concentration of 1.37 mg/mL, with IC50 in the range of 1.3 to 6.7 mg/mL. It was possible to observe that higher concentrations induce nuclear fragmentation, triggering processes such as apoptosis and necrosis. Experiments using the OMTC technique demonstrated that different concentrations of silver nanoparticles can modify cell stiffness. This is evidenced when we compare the control group with the other groups, with the different concentrations of NPs. For higher concentrations of nanoparticles, there was an increase in viscoelasticity. The two types of nanoparticles studied showed changes in mechanical properties, but Khemia® AgNPs showed a greater increase in viscoelasticity at different concentrations. This change in viscoelasticity was explained to be due to the increased availability of calcium, released by apoptotic cells, which is used in the myosin-actin complex to generate muscle contraction.

caracterização

cell mechanics

characterization

citotoxicidade

cytotoxicity

fluorescence microscopy

mecânica celular

microscopia de fluorescência

nanopartículas de prata

silver nanoparticles

viscoelasticidade.

viscoelasticity.

Avaliação da estabilidade genética conferida pelo lócus parB e força de expressão dos promotores deste sistema gênico. / Evaluation of the genetic stability conferred by the parB locus and the expression strength of the promoters from this genic system.

Silva, Felipe Almeida da

07 March 2014

Em aplicações biotecnológicas, a estabilização de informações e a expressão gênica em bactérias Gram-negativas são fundamentais. Neste trabalho, analisou-se o efeito de estabilização plasmidial promovido pelo lócus parB (hok/sok) nas bactérias E. coli, C. metallidurans e C. necator transformadas com os plasmídeos pCM2, pBBR1MCS e seus respectivos derivados contendo o lócus parB, pCM3 e pBBPAR. As bactérias transformadas com pCM2 exibiram perda plamidial acentuada após 50 gerações, e as bactérias transformadas com pCM3 e pBBPAR exibiram estabilidade próxima a 100%, após 100 gerações. Também foi avaliada a força relativa de expressão dos promotores hok e sok em relação ao promotor lac, inseridos no plasmídeo pBBEGFP. Por microscopia de fluorescência, foi observado que regulado pelos promotores sok e hok, os transformantes expressaram EGFP. Utilizando citometria de fluxo, foi observado que o promotor hok apresentou maior força de expressão nas bactérias transformantes de E. coli e C. metalliduras; já o promotor sok apresentou maior força de expressão em C. necator. / In biotechnological applications, stabilization of information and gene expression in Gram-negative bacteria are important. In this work, we analyzed the effect of plasmid stabilization promoted by locus parB (hok/sok) in the bacteria E. coli, C. metallidurans and C. necator transformed with the plasmids pCM2, pBBR1MCS, and their derivatives containing the parB locus, pCM3 and pBBPAR. The Bacteria transformed with pCM2 showed a pronounced plasmidial loss after 50 generations, and bacteria transformed with pCM3 and pBBPAR exhibited stability close to 100 % after 100 generations. We also evaluated the relative expression strength of hok and sok promoters relative to the lac promoter, inserted into plasmid pBBEGFP. For fluorescence microscopy, it was observed that regulated by hok and sok promoter, transformants expressed EGFP. Using flow cytometry, it was observed that the hok promoter showed higher expression levels in E. coli and C. metallidurans transformants; as sok promoter showed higher expression level in C. necator.

Bacterial genetics

Citometria de fluxo

Expressão gênica

Flow cytometry

Fluorescence microscopy

Gene expression

Genética bacteriana

Microscopia de fluorescência

Plasmídeos

Plasmids