Avaliação imunológica da vacina contra pertussis com menor teor de LPS (Plow) na infecção com Bordetella pertussis e Bordetella parapertussis, em camundongos. / Immunological evaluation of a whole cell pertussis vaccine with low LPS content (Plow) in the infection with Bordetella pertussis e Bordetella parapertussis in mice.

Cunegundes, Priscila Silva

22 September 2016

A coqueluche é uma doença contagiosa, causada por Bordetella pertussis e B. parapertussis e as vacinas de células inteiras (WCPs) contra pertussis, embora eficazes, foram associadas a efeitos indesejáveis. Já as vacinas pertussis acelulares são menos reatogênicas, mas caras, o que as torna inviáveis para países em desenvolvimento. Nesse estudo, avaliamos a resposta imune induzida por uma vacina pertussis celular com menor teor de LOS (Plow), desenvolvida pelo Instituto Butantan. Para isso, camundongos C57BL-6 foram imunizados com WCP tradicional ou Plow, formulada com MPL-A de B. pertussis ou com Hidróxido de Alumínio e vacinas tríplice bacterianas com componente pertussis acelular, Pertacel ou Adacel. Após o esquema de imunização, foi avaliada a resposta imune humoral e celular contra a B. pertussis, e B. parapertussis, além de resposta inata a um antígeno não relacionado, BCG. Ensaio de transmissão também foi realizado, após desafio com B. pertussis ou B. parapertussis. Nossos resultados consolidam a avaliação da resposta imune humoral e celular induzida pela Plow, além de apresentar resultados bastante interessantes relativos à atividade da Plow na diminuição da transmissão bacteriana, tanto de pertussis quanto de parapertussis. / Bordetella pertussis and B. parapertussis are the causative agents of whooping cough. Whole cell pertussis (wPs) vaccines, although effective, were associated with undesirable effects. On the other hand, aP vaccines are less reactogenic, but expensive, which made their use unable for developing countries. In this study, we assessed the immunological response, induced by a whole cell pertussis vaccine with low LOS content (Plow), developed by Instituto Butantan. To this, C57BL-6 mice were immunized with traditional whole cell pertussis vaccine or Plow, administrated with Monophosporil lipid A from B.pertussis or Aluminum hydroxide, and diphtheria-tetanus-acellular pertussis vaccines, Pertacel or Adacel. After the immunization scheme, were evaluated humoral and cellular immune responses against B. pertussis and B. parapertussis, in addition to innate response to an unrelated antigen, BCG. Transmission assay was also performed, after B. pertussis or B. parapertussis challenge. Our results consolidated the immune humoral and cellular responses induced by Plow, besides interesting results with regards the efficacy of the vaccine in decreasing the transmission of B. pertussis and B. parapertussis in mice.

Bordetella parapertussis

Bordetella parapertussis

Bordetella pertussis

Bordetella pertussis

Coqueluche

Vacina Pertussis Low

Vacinas

Vacinnes

Whole cell pertussis with low LPS (Plow)

Whooping cough

Signal transformation at the input and output of the Drosophila visual system

Morimoto, Mai

January 2017

A key function of the nervous system is to sample data from the external world, generate internal signals, and transform them into meaningful information that can be used to trigger behaviour. In order to gain insight into the underlying mechanism for signal transformation, the visual system has been extensively studied: partly owing to the stimulus being reliably presentable, and the anatomy being well described. The Drosophila visual system is one such system, with the added advantage of genetic tractability. In this thesis, I studied the filtering property of visual neurons at two levels, biophysical and circuit levels. The first study looks at signal transformation at the biophysical level, at the input of the visual system, in photoreceptors. Voltage-gated potassium channels counteract the depolarization caused by opening of light sensitive channels, and the heterogeneous properties of their kinetics can fine-tune the photoreceptor’s frequency response to fulfill the animal’s ecological requirements. Shaker (Kv1) and Shab (Kv2) have been identified as fast and slow inactivating components of the photoreceptor’s outward currents, however a current with intermediate kinetics (IKf) has not been molecularly identified, but had been postulated to be Shal (Kv4). I focused on characterizing this current using whole-cell patch clamp in wild type and mutants, and using antibodies for Shal. My results from whole-cell patch clamp indicated that IKf in adult R1-6 cells are not Shal, from their voltage dependence and insensitivity to a Kv4 blocker. This calls for alternative molecular basis for IKf, which is likely to be a slow inactivating component of Shaker, or a combination of its many splice variants. The second study looks at signal transformation at the circuit level, at the output end, in the third optic neuropil, lobula. Visual projection neurons project from the lobula to the central brain, and have been proposed to carry behaviourally relevant visual features to higher brain regions. It was recently shown that optogenetic activation of individual visual projection neuron types could induce distinct behaviours such as takeoff and backward walking, linking these visual neurons to specific behavioural programs downstream. Using in vivo two-photon calcium imaging, I recorded visually evoked calcium responses from three of these cell types. Cell types that showed induced takeoff and backward walking preferentially responded to dark looming stimuli or fragmented expanding local features, suggesting their role in behaviours triggered by object approach. To explore how this visual information is transformed in the downstream circuit, we identified several candidate neurons that receive input from this cell type by anatomical overlap, and then validated their connections using optogenetic activation and calcium imaging. One downstream cell-type that projects bilaterally had very similar response properties to its upstream partner, whereas another cell-type that projects ipsilaterally seemed to filter out some information from its upstream partner. This is one of the first studies that functionally characterizes lobula visual projection neurons and their downstream partners in Drosophila, and their response properties agree with the general idea that visual information becomes increasingly selective as it is sent to higher brain regions.

612.8

CellMap: An Automated Multielectrode Array Cell Culture Analysis System Based on Electrochemical Impedance Spectroscopy

Abdur Rahman, Abdur Rub

28 June 2007

The objective of this research is to develop fundamental understanding of cell-substrate (CS) and cell-cell (CC) interactions in the culture space for time evolving cell cultures. Space resolved CC and CS interactions are important indicators of cell-density distribution, localized cellular behavior, and multiple cell-layers which are differentiators of normal and abnormal cell behavior. In this research, CS and CC interactions and the variations therein due to a) Cell growth, 2) cell-drug interaction, and 3) effect of Cytotoxin were studied using multielectrode, multi-frequency Electrochemical Impedance Spectroscopy (EIS). Contemporary impedance based methods sense either CC or CS interaction as a space averaged macroscopic quantity. A major contribution of this research is that, both CC and CS interactions are recorded and analyzed with spatio-temporal resolution. This research led to the development of an automated cell culture monitoring system, namely, CellMap. A planar eight electrode sensor was fabricated on a glass substrate and interfaced with a switching circuit. The switching circuit sequentially selects consecutive electrodes upon input of a 5V trigger pulse which is generated by the frequency response analyzer at the end of each frequency scan, thereby facilitating automated switching and recording of multielectrode dataset. Calibration standards and protocols were developed to null the channel parasitics of individual channels. A set of eight impedance measurements for eight electrodes constitutes a "frame". Frames are recorded at regular time intervals over the desired course of time. Impedance mapping of adhesion, spreading, motility and detachment of OvCa429 ovarian cancer cells was performed over a period of 70 hours. The cell-layer resistance, which indicates cell-cell contact, increased as a function of time until confluence, and decreased thereafter due to cell death and detachment. This was also confirmed by optical microscopy observations. Similarly, the cell layer Constant Phase Element (CPE) parameters, which were found to correlate well with cell density distribution, also increased as a function of time until confluence and decreased thereafter. Additionally, the cell-growth mapping revealed that the CellMap system is able to resolve non-uniform cell distributions in the culture space, which may be useful in differentiating between normal and pathological cells.

biosensor

bioimpedance

cell-based assays

whole cell assays

cell substrate sensing

cell monitoring

cytology

cellular behavior

biomems

American Studies

Arts and Humanities

Serotonin 5-HT Receptor Currents in the Healthy Rodent Prefrontal Cortex and in a Model of Affective Disorders

Goodfellow, Nathalie M.

07 August 2013

Affective disorders represent one of the greatest global burdens of disease. Work in patients with affective disorders demonstrates that serotonin (5-HT) signaling within the prefrontal cortex, particularly at the level of the 5-HT receptors, plays an integral role in both the pathology and treatment of these diseases. Surprisingly, the characterization of the prefrontal 5-HT receptors under both healthy and pathological conditions remains incomplete. The technique of whole cell electrophysiological recording provides an unparalleled tool for investigating the functional effects of these 5-HT receptors on neurons in acute prefrontal cortical slices. The objectives of my thesis were to delve deeper into the 5-HT receptor subtypes that modulate the prefrontal cortex in the healthy control rodents and to examine how this modulation was disrupted in a rodent model of affective disorders. In work from healthy control rodents, I examined two prefrontal 5-HT receptor-mediated currents. I show for the first time the presence of the 5-HT1A receptor during the early postnatal period, a critical developmental window during which this receptor programs adult anxiety behaviors. In adulthood, I characterized an inhibitory current mediated by the 5-ht5A receptor; findings that will permit the classification of this receptor within the 5-HT receptor family. Collectively, this investigation of functional early 5-HT1A receptors and adult 5-ht5A receptors offers a novel conceptual framework for understanding 5-HT receptor modulation of the healthy prefrontal cortex. To model vulnerability to affective disorder in the rodent, I used the early stress of maternal separation. In early stress rodents, I observed a marked increase in 5-HT1A receptor currents during the early postnatal period, the critical time window for the programming of anxiety. By comparison, in adulthood I found that rodents exposed to early stress displayed increased 5-HT2A receptor currents. These findings provide novel insight into the developmental and long-lasting pathology underlying early stress, indicating that the early prefrontal 5-HT1A receptor and adult prefrontal 5-HT2A receptors as a potential therapeutic target in treatment of affective disorders At a fundamental level, the findings provided herein offer critical insight into the cellular mechanisms underlying affective disorders, one of the most debilitating and costly diseases worldwide.

Serotonin

Electrophysiology

Prefrontal cortex

5-HT

Anxiety

Depression

Maternal Separation

Stress

pyramidal neuron

acute slice

psychiatric disorders

development

early life stress

whole-cell

0433

0317

0719

0349

0419

Multi-Scale, Spatio-Temporal Analysis of Mammalian Cell Tomograms

Andrew Noske

Unknown Date

The biological, technical and computational aspects of this project collectively focused on using electron tomography (ET) for the high-resolution (10-20 nm) 3D reconstruction of entire insulin-secreting beta cells within islets of Langerhans isolated from mouse pancreata. Islets were cultured overnight to represent either steady-state (non-stimulated) or elevated glucose (stimulated) conditions, prior to fast-freezing, freeze-substitution, plastic embedment and cutting into 250-400 nm thick sections for tomographic imaging using intermediate voltage electron microscopy (EM). 3D images (tomograms) of each section were used to evaluate the performance of the new technical and computational approaches developed, and make biological comparisons of intercellular structure-function. Analysis focused on key compartments/organelles of the insulin-secretory pathway - Golgi apparatus, mitochondria, insulin secretory granules and multi-granular bodies. To allow the application of ET to entire mammalian cells, several technical limitations were addressed. Since segmenting (delimiting compartments of interest) tomograms manually, represented the major ërate-limiting stepí of ET, an interactive approach for 3D segmentation using novel interpolation algorithms (crude smooth, pointwise smooth and spherical interpolation) to iteratively predict the shape of 3D surfaces between user-drawn contours was developed. The performance of these tools in segmenting a range of compartment types was examined, and found to significantly enhance the speed and accuracy of manual segmentation. To better compensate for the physical collapse of plastic sections in the EM, a novel method was developed for estimating section collapse by analyzing approximately spherical organelles. Using this method on mature insulin granules in high-resolution datasets, coupled with measurements from the whole cell reconstructions, section collapse was found to be substantially less (~25%) than the value (40%) previously used to re-scale 3D models. Other new approaches developed to further improve the accuracy and quality of tomograms, included interactive tools for fiducial tracking, and the use of larger gold particles, a ëreduced second axisí to account for the missing wedge problem, and deformation grids to account for anisotropic deformation. As well as affording more efficient and precise mapping of cell ultrastructure in 3D for subsequent quantitative analysis, these developments provided new insights for future automated (hybrid) segmentation pipelines and new computational approaches for improving quality and isotropic accuracy of volumetric image data. The Interpolator and DrawingTools for segmentation, AnalysisTools for estimating section collapse and BeadHelper for tracking fiducial particles, written as plug-ins for the IMOD software package distributed by the University of Colorado, are now being used by the wider ET community with significant positive feedback. Using the novel approaches developed, four insulin-secreting beta cells - two from the periphery of an islet frozen 1 hr after stimulation with 11 mM glucose, and two from the periphery of another islet under steady-state 5.6 mM glucose conditions - were reconstructed in their entirety in 3D. Quantitative data on the key compartments/organelles provided new information regarding global changes in cellular organization, and enabled robust comparisons of each pair of functionally equivalent cells at unprecedented spatial resolution. Relative differences in the number, dimensions, architecture and distribution of organelles per cubic micron of cellular volume (including mitochondrial branching) reflected differences in the cellsí individual capacity/readiness to respond to secretagogue stimulation. In the two stimulated cells this was reflected by inverse relationships between the number/size of mature granules versus immature granules, the number/size of mitochondria, and the volume of the trans-Golgi network relative to the entire Golgi ribbon. Complementary stereological analysis of whole islets indicated which cells were the most representative under stimulated versus non-stimulated conditions, and revealed a marked natural heterogeneity between cells both within and between individual islets. Overall, this project led to significant improvements in efficiency and accuracy for segmenting cellular compartments/organelles, and in image quality and accuracy for tomogram computation and reconstruction through use of the newly developed techniques. The improved 3D reconstruction and analysis of pancreatic beta cells in toto in native tissue provided a powerful approach for quantitatively mapping the organelles involved in insulin synthesis/secretion at unprecedented detail, and afforded a level of insight into the complex 3D organization of mammalian cells not previously achieved by any other analytical technique or imaging method.

electron microscope tomography

three-dimensional spatial analysis

interpolation

automatic segmentation

beta cell

mouse pancreas

insulin secretory pathway

image processing

whole cell tomography

Biodisponibilité et dynamique de partition de métaux traces aux interphases microbiennes : effets de complexation intracellulaire et application aux biosenseurs bactériens / Bioavailability and Partitioning Dynamics of Trace Metals at Microbial Interphases : Intracellular Complexation Effects and Application to Whole-Cell Metal-Sensing Bioreporters

Présent, Romain

29 June 2018

La biodisponibilité d'un métal pour un organisme donné correspond à la fraction de ce métal qui est potentiellement bioadsorbable et/ou biointernalisable. Elle dépend de la composition physicochimique du milieu, de la nature des surfaces biologiques considérées et elle est modulée par la réponse cellulaire des organismes. Dans un contexte environnemental, l’analyse des processus contrôlant la bioassimilation des métaux est essentielle pour une prédiction fiable de leur biodisponibilité et toxicité. Dans ce manuscrit sont détaillés des développements théoriques et expérimentaux visant à comprendre la dynamique de partition de contaminants métalliques aux interfaces microbiennes et les déterminants de leur biodisponibilité selon une approche qui dépasse les cadres thermodynamiques classiques (modèle BLM). Après une partie introductive et une revue de l'état de l'art, le troisième chapitre de cette thèse est dédié à l'élaboration d'un formalisme pour l'évaluation quantitative de la bio-partition hors-équilibre de métaux traces aux interfaces biologiques. Ce modèle théorique est basé sur les expressions des flux de contaminants depuis la solution extracellulaire vers la surface biologique par diffusion/conduction, des flux d'internalisation et excrétion à travers la membrane, et il tient compte de la cinétique de déplétion des métaux en solution. Le formalisme intègre par ailleurs les processus de complexation intracellulaire des métaux sur la base d'un mécanisme d'Eigen généralisé. Dans le quatrième chapitre, des souches d'Escherichia coli ont été génétiquement modifiées pour (i) limiter leurs capacités d'excrétion des métaux et (ii) sur-exprimer des protéines intracellulaires ayant une forte affinité pour ces métaux. Des données expérimentales issues de suivis cinétiques de déplétion de Cd(II) réalisées à différentes fractions volumiques en bactéries ont permis de conforter avec succès les bases de la théorie élaborée dans cette thèse pour la partition de métaux à des biointerfaces molles chargées. Un dernier chapitre est consacré à l’évaluation quantitative de la réponse de biosenseurs luminescents en présence de métaux. Ce formalisme décrit la façon avec laquelle la dérivée temporelle des biosignaux dépend de la dynamique d’internalisation du métal, de la cinétique de formation de complexes intracellulaires régulateurs des processus de transcription et de leurs stabilités, et des processus de bio-sorption passive. Une confrontation avec des données expérimentales issues de biosenseurs sensibles au cadmium a permis de mettre en évidence l’inapplicabilité des modèles d’équilibre de biodistribution des métaux, et de prédire la réponse des biosenseurs à des variations de la salinité du milieu, de la concentration cellulaire et de la concentration bulk de métaux / Bioavailability of metal ions toward living organisms refers to the metal fraction they potentially adsorb and/or internalize. It is governed by the physicochemical medium composition, the nature of the biological surface considered and it is further mediated by the cellular response of the organisms. Within an environmental context, a fine understanding of the processes controlling metal biouptake is mandatory to predict bioavailability and toxicity of metallic contaminants. Here are detailed theoretical and experimental developments to broaden our knowledge on dynamic partitioning of metallic contaminants at microbial interfaces beyond the standard thermodynamic representation (BLM model). After an introduction and a state of the art section, the third chapter is devoted to the elaboration of a rationale for the evaluation of the processes governing metal biouptake under relevant out-of-equilibrium conditions. The formalism expresses the fluxes of contaminants from bulk medium to the biosurface via conductive diffusion, the biouptake and excretion fluxes with account of metal depletion kinetics in the extracellular medium. It also includes chemodynamics of intracellular metal complexation as described by a generalized Eigen scheme. In the fourth chapter, strains of \textit{Escherichia coli} were genetically modified to limit metal excretion ability and overexpress strong intracellular proteinaceous chelators. Quantitative interpretation of metal depletion kinetic data confort the bases of the theory developed in this PhD work on metal partitioning at soft charged biointerfaces. The final chapter deals with a development of a theoretical framework for understanding -on a mechanistic level- the response of metal-sensitive whole-cell bioreporters. The theory explicitly deciphers how the time derivative of bioreporters signal intensity is governed by the dynamics of metal biouptake, by the formation kinetics and stability of the intracellular complexes acting as transcriptional regulators, and by passive biosorption. The model predictions are successfully collated with cadmium detection data collected with genetically modified Escherichia coli luminescent bioreporters that exhibit various lipopolysaccharidic surface structures. The analysis dismisses the applicability of thermodynamic metal biopartitioning models and it clearly defines the physicochemical medium composition in line with optimum biosensing of the bioavailable metal fraction

Biodisponibilité

Spéciation hors-équilibre

Biointerfaces

Biosenseurs

Électrostatique

Diffusion

Déplétion

Bioavailability

Chemodynamics of metal complexes

Biointerfaces

Whole-cell metal-sensing bioreporters

Electrostatics

Diffusion

Bulk metal depletion

551.9

Role of the ventromedial hypothalamus in control of innate defensive behaviours

Wroblewska, Natalia

January 2018

Our senses are constantly bombarded with information. How does the brain integrate such a variety of inputs to generate appropriate behaviours? Innate defensive behaviours are a good model to address this question. They are essential for animal survival and the brain circuits that control them are highly conserved across species. Moreover, the sensory inputs and behavioural outputs can be well defined and reliably reproduced in the lab. This allows us to study function of the individual components of the circuit controlling these behaviours. Ventromedial hypothalamus (VMH) is a key brain region for controlling responses to predators; it has been shown that inactivating the VMH can reduce defensive behaviours. Interestingly, activating the VMH output neurons (SF1+ cells) can produce a variety of different behaviours, from immobility to escape, depending on the intensity of activation. During my PhD I used a variety of approaches to address the question of the function of the VMH in control of defensive behaviours. At first I hypothesised that the VMH might act as a centre responsible for choosing an appropriate behavioural response according to the stimulus. I set to investigate how different activation levels of SF1+ neurons can produce such different behavioural outputs, and how this activity is modulated in vivo in response to predator stimuli. I began the project by quantifying mouse defensive behaviours in response to olfactory and auditory predator cues, as well as to the optogenetic activation of SF1+ neurons. I then questioned whether there was heterogeneity within the population of SF1+ neurons, which could explain their ability to trigger different behaviours. I performed patch clamp recordings from acute brain slices and conducted a study of the electrophysiological properties of SF1+ neurons. I next investigated how SF1+ neurons integrate excitatory inputs from the medial amygdala, a region which receives olfactory inputs from the accessory olfactory bulb. By combining optogenetics with slice electrophysiology and behavioural assessment, I described the physiology and relevance of this connection. Finally, I investigated in vivo activity in the VMH in response to predator cues by performing calcium imaging of the VMH neurons in freely moving mice. By presenting different sensory stimuli, I addressed the question of heterogeneity of the input pattern to the VMH neurons and the relationship between the VMH activity and the behavioural output. Taken all together, the results of this project have led to a hypothesis whereby the function of the VMH is to facilitate rather than directly control the choice of an appropriate behavioural response.

Investigação do efeito vasorelaxante e caracterização eletrofisiológica dos alcalóides curina e reticulina

Medeiros, Marcos Antônio Alves de

24 September 2009

Made available in DSpace on 2015-05-14T13:00:06Z (GMT). No. of bitstreams: 1 parte1.pdf: 1450137 bytes, checksum: 1838bf2efddf0ca147f276df88417bb6 (MD5) Previous issue date: 2009-09-24 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / It was been demonstrated that curine and reticuline, induced a vasodilator effect in the rat small mesenteric arteries through inhibition of voltage-gated Ca2+ channels (VGCC). These compounds, curine and reticuline were isolated from the root barks of Chondrondendron platyphyllum and Ocotea duckei Vattimo, respectively, therefore the aim of this work was to evaluate the vasodilator mechanism of curine and reticuline, bisbenzylisoquinoline alkaloids (BBA), isolated from the root barks of Chondrondendron platyphyllum and Ocotea duckei Vattimo, respectively, using functional and molecular approaches. Tension measurements in aorta rings, whole-cell patch-clamp and confocal techniques were employed to study the action of these alkaloids. The A7r5 smooth muscle derived cell line was used for Ca2+ currents measuring and the intracellular calcium concentration ([Ca2+]i) were evaluated using confocal microscopy. The main results are as follows: in aortic rings, curine (3 - 300 μM) antagonized KCl (60 mM) and Bay K8644 (3 x 10-7 M) induced contractions. In whole-cell configuration, curine reduced the voltage-activated peak amplitude of ICa,L in a concentration-dependent manner. However, the Ca+2 current density versus voltage relationship and maximal activation voltage of ICa,L were not changed. Moreover curine did not also affect the steady-state activation of ICa,L, but shifted the steady-state inactivation curve of ICa,L for more negative potentials, however this effect was not changed in the presence of IBMX, dbcAMP and 8-brcGMP, suggesting that cyclic mononucleotides, such as cAMP and cGMP, are not involved in curine effect. In confocal experiments, curine inhibited the rise on the [Ca2+]i induced by KCl (60 mM) in dispersed vascular smooth muscle cells. In reference to reticuline (3 300 μM) was verified that alkaloid agonized CaCl2 and KCl-induced contractions and elicited vasorelaxation in aortic rings. In whole-cell configuration, reticuline reduced the voltage-activated peak amplitude of ICa,L in a concentration-dependent manner, but did not change the characteristics of current density versus. voltage relationship. Reticuline shifted leftwards the steady-state inactivation curve of ICa,L, however this effect was not changed after application of dibutyryl cyclic adenosine monophosphate to the cell. In cells pretreated with forskolin, an adenylate cyclase activator, the addition of reticuline caused further inhibition of the Ca2+ currents suggesting an additive effect, indicating that cyclic mononucleotides were not involved. Taken together the results have shown that curine and reticuline elicits vasorelaxation due to the blockade of the L-type voltage-dependent Ca2+ current in rat aorta smooth muscle cells. The reported effect may contribute to the potential cardioprotective efficacy of curine and reticuline. / Curina e reticulina são alcalóides isolados das cascas do caule e raízes de Chondrondendron platyphyllum e de Ocotea duckei Vattimo, respectivamente. Estudos anteriores demonstraram que esses alcalóides são capazes de induzir efeito vasodilatador em artéria mesentérica e aorta de rato, respectivamente, devido possível inibição dos canais para Ca2+ dependentes de voltagem (VGCC). O objetivo deste trabalho foi investigar o mecanismo vasodilatador de curina e reticulina realizando experimentações funcionais e moleculares. Foram utilizadas medidas de tensão em anéis de aorta de rato, e empregadas técnicas de patch-clamp e de microscopia confocal para estudos da ação desses alcalóides. Também foram utilizadas células A7r5, uma linhagem de células musculares lisas embrionária derivada de aorta torácica de rato, que foram usadas para medir as correntes de Ca2+ macroscópicas e a concentração de cálcio intracelular ([Ca2+]i), que foram avaliadas usando a técnicas de patch-clamp e microscopia confocal, respectivamente. Os principais resultados são: em anéis de aorta, curina (3 - 300 μM) antagonizou as contrações induzidas por KCl (60 mM) e Bay K8644 (3 x 10-7 M). Na configuração whole-cell patch clamp , curina reduziu a amplitude da corrente de cálcio do tipo L (ICa,L) de maneira dependente de concentração. Porém, curina não alterou as características das correntes na relação corrente-voltagem. A voltagem de ativação máxima para ICa,L não foi diferente em relação ao controle. Além disso, curina também não afetou a ativação no estado estacionário das ICa,L, mas deslocou a curva da inativação estacionária para potenciais mais negativos. No entanto, esse efeito promovido por curina não foi alterado na presença de IBMX, dbcAMP e 8- brcGMP, sugerindo que os mononucleotídeos cíclicos, como APMc e GMPc, não estão envolvidos no efeito da curina. Em experimentos com microscopia confocal curina inibiu os transientes de cálcio intracelulares, e reduziu o aumento de [Ca2+]i induzidos por KCl (60 mM) em células de músculo liso vascular. Em relação à reticulina (3 300 μM), foi verificado que esse alcalóide antagonizou as contrações induzidas por CaCl2 e KCl, provocando vasorelaxamento em anéis de aorta. Na configuração whole-cell patch clamp , reticulina também reduziu a amplitude das ICa,L de maneira dependente de concentração, mas não mudou as características da corrente na relação corrente-voltagem. A reticulina deslocou para potenciais mais negativos a curva de inativação estacionária para as ICa,L. Porém, esse efeito não foi alterado após a aplicação de dbcAMP e 8-brcGMP. Em células pré-tradadas com forskolina, um ativador da adenilil ciclase, a adição da reticulina causou uma inibição adicional das correntes de Ca2+ que sugere um efeito aditivo da reticulina, indicando que os mononucleotídeos cíclicos não estão envolvidos. Dessa forma, curina e reticulina provocaram vasorelaxamento, devido ao bloqueio das correntes de Ca2+ dependentes de voltagem do tipo-L em células de músculo liso, em cultura e recémdispersas, de aorta de rato, revelando que esses alcalóides têm um importante potencial como modelo químico para a concepção e posterior desenvolvimento de novos fármacos com propriedade protetora cardiovascular.

Curina

Reticulina

Células A7r5

Aorta de rato

Whole cell patchclamp

Correntes de cálcio

Cálcio intracelular

Curine

Reticuline

A7r5 cells

Rat aorta

Patch-clamp

Calcium currents

Intracellular calcium

CIENCIAS BIOLOGICAS::FARMACOLOGIA

Hydrophobin-Based Surface Engineering for Sensitive and Robust Quantification of Yeast Pheromones

Hennig, Stefan, Rödel, Gerhard, Ostermann, Kai

16 January 2017

Detection and quantification of small peptides, such as yeast pheromones, are often challenging. We developed a highly sensitive and robust affinity-assay for the quantification of the α-factor pheromone of Saccharomyces cerevisiae based on recombinant hydrophobins. These small, amphipathic proteins self-assemble into highly stable monolayers at hydrophilic-hydrophobic interfaces. Upon functionalization of solid supports with a combination of hydrophobins either lacking or exposing the α-factor, pheromone-specific antibodies were bound to the surface. Increasing concentrations of the pheromone competitively detached the antibodies, thus allowing for quantification of the pheromone. By adjusting the percentage of pheromone-exposing hydrophobins, the sensitivity of the assay could be precisely predefined. The assay proved to be highly robust against changes in sample matrix composition. Due to the high stability of hydrophobin layers, the functionalized surfaces could be repeatedly used without affecting the sensitivity. Furthermore, by using an inverse setup, the sensitivity was increased by three orders of magnitude, yielding a novel kind of biosensor for the yeast pheromone with the lowest limit of detection reported so far. This assay was applied to study the pheromone secretion of diverse yeast strains including a whole-cell biosensor strain of Schizosaccharomyces pombe modulating α-factor secretion in response to an environmental signal.

Analyt-Detektion

Hefepheromon

Hydrophobin

Oberflächenfunktionalisierung

Vollzell-Biosensor

Biosensor

analyte detection

yeast pheromone

hydrophobin

surface functionalization

whole-cell biosensor

biosensor

ddc:620

rvk:ZG 1100

Hydrophobin-Based Surface Engineering for Sensitive and Robust Quantification of Yeast Pheromones

Hennig, Stefan, Rödel, Gerhard, Ostermann, Kai

16 January 2017

Detection and quantification of small peptides, such as yeast pheromones, are often challenging. We developed a highly sensitive and robust affinity-assay for the quantification of the α-factor pheromone of Saccharomyces cerevisiae based on recombinant hydrophobins. These small, amphipathic proteins self-assemble into highly stable monolayers at hydrophilic-hydrophobic interfaces. Upon functionalization of solid supports with a combination of hydrophobins either lacking or exposing the α-factor, pheromone-specific antibodies were bound to the surface. Increasing concentrations of the pheromone competitively detached the antibodies, thus allowing for quantification of the pheromone. By adjusting the percentage of pheromone-exposing hydrophobins, the sensitivity of the assay could be precisely predefined. The assay proved to be highly robust against changes in sample matrix composition. Due to the high stability of hydrophobin layers, the functionalized surfaces could be repeatedly used without affecting the sensitivity. Furthermore, by using an inverse setup, the sensitivity was increased by three orders of magnitude, yielding a novel kind of biosensor for the yeast pheromone with the lowest limit of detection reported so far. This assay was applied to study the pheromone secretion of diverse yeast strains including a whole-cell biosensor strain of Schizosaccharomyces pombe modulating α-factor secretion in response to an environmental signal.

info:eu-repo/classification/ddc/620

ddc:620