Estudos experimentais e teóricos dos espectros eletrônicos das sondas fluorescentes Prodan e Laurdan em solventes e bicamadas lipídicas / Experimental and theoretical studies of the electronic spectra of Prodan and Laurdan in solvents and lipid bilayers

Suplicy, Cíntia Cristina de Vequi

13 September 2010

As moléculas Prodan (6-propionil-2-dimetilamino-naftaleno) e Laurdan (6- dodecanoil-2-dimetilamina-naftaleno) são muito usadas como sondas fluorescentes em bicamadas lipídicas e, mais raramente, em membranas celulares. Esta tese de doutorado teve por objetivo realizar um estudo dessas sondas em diferentes ambientes, para ampliar o entendimento de suas estruturas e características espectroscópicas em diferentes solventes e em bicamadas lipídicas. Este estudo foi feito utilizando duas abordagens, uma experimental e outra teórica. Com resultados teóricos e experimentais, mostramos que o cromóforo é o mesmo para as duas moléculas. Experimentalmente, foram medidos e comparados os espectros de absorção eletrônica em solventes de diferentes polaridades e em bicamadas lipídicas. Foi construído um modelo teórico para o estado fundamental do Prodan em diferentes solventes, onde verificamos que a geometria molecular é planar e a molécula sofre uma grande polarização em solventes de maior polaridade. Teoricamente, reproduzimos os espectros de absorção em todos os solventes, mostrando que eles são compostos por três transições eletrônicas. Verificamos, experimental e teoricamente, que o Prodan forma agregados quando colocado em solução aquosa, em todas as concentrações estudadas (0.9 a 20.0 uM). Adicionalmente, foram medidos e comparados os espectros de emissão fluorescente, e mostramos que eles apresentam duas bandas de emissão em todos os solventes estudados e em bicamada lipídicas. Essas bandas estão relacionadas com dois tempos de vida, evidenciando a presença de dois estados excitados para essas sondas. Porém, a natureza dos estados excitados em solventes homogêneos e em bicamadas lipídicas parece ser diferente. Uma metodologia de análise dos espectros de emissão fluorescente foi proposta. A comparação dos espectros de emissão do Prodan e do Laurdan em bicamadas lipídicas mostrou que as sondas monitoram micro-ambientes ligeiramente diferentes. Nossos resultados indicam que os dois fluoróforos posicionam-se próximos à superfície da bicamada lipídica, porém o Prodan parece estar mais exposto à água. Além disso, o Prodan apresenta uma pequena partição em água, quando a bicamada está na fase gel. / Prodan (6-propionyl-2-dimethylamino-naphthalene) and Laurdan (6-dodecanoyl-2- dimethylamino-naphthalene) molecules are frequently used as fluorescent probes in lipid bilayers and, more rarely, in cell membranes. The objective of this PhD thesis was to study these probes in several environments, to increase the understanding about its structures and spectroscopic characteristics in several solvents and lipid bilayers. This study was carried out using two approaches: experimental and theoretical. With experimental and theoretical results, we demonstrated that the two molecules have the same chromophore. Experimentally, electronic absorption spectra were measured and compared in solvents of several polarities and lipid bilayers, for both molecules. A theoretical model was constructed for Prodans fundamental state in several solvents, in which we found that its molecular geometry is planar and that the molecule undergoes a great deal of polarization in solvents of higher polarity. Theoretically, we emulated the absorption spectra in all solvents studied, showing that they are well described by three electronic transitions. We verified, experimental and theoretically, that Prodan aggregates in aqueous solution at all concentration ranges (0.9 a 20.0 uM). Additionally, the fluorescent emission spectra were measured and compared, and we demonstrated that they are composed by two emission bands in all solvents and lipid bilayers. These bands were related to two fluorescent lifetimes, evidencing the presence of two excitation states for these probes. However, the nature of the excited states in homogeneous solvents and in lipid bilayers seems to be different. A methodology to analyze the emission spectra was proposed. The comparison of Prodans and Laurdans emission spectra in lipid bilayers showed that the probes monitor a slightly different micro-environment. Our results indicated that both fluorophores are located near the bilayers surface, although Prodan seems to be more exposed to water molecules. Besides that, Prodan partitions in water, when the bilayer is in the gel phase.

Absorção eletrônica

Absorção eletrônica

Bicamada lipídica

Bicamada lipídica

Cálculos quânticos

Cálculos quânticos

Fluoescência

Fluorescência

Laurdan

Laurdan

Prodan

Prodan

Simulação Computacionais

Simulações Computacionais

Estudos experimentais e teóricos dos espectros eletrônicos das sondas fluorescentes Prodan e Laurdan em solventes e bicamadas lipídicas / Experimental and theoretical studies of the electronic spectra of Prodan and Laurdan in solvents and lipid bilayers

Cíntia Cristina de Vequi Suplicy

13 September 2010

As moléculas Prodan (6-propionil-2-dimetilamino-naftaleno) e Laurdan (6- dodecanoil-2-dimetilamina-naftaleno) são muito usadas como sondas fluorescentes em bicamadas lipídicas e, mais raramente, em membranas celulares. Esta tese de doutorado teve por objetivo realizar um estudo dessas sondas em diferentes ambientes, para ampliar o entendimento de suas estruturas e características espectroscópicas em diferentes solventes e em bicamadas lipídicas. Este estudo foi feito utilizando duas abordagens, uma experimental e outra teórica. Com resultados teóricos e experimentais, mostramos que o cromóforo é o mesmo para as duas moléculas. Experimentalmente, foram medidos e comparados os espectros de absorção eletrônica em solventes de diferentes polaridades e em bicamadas lipídicas. Foi construído um modelo teórico para o estado fundamental do Prodan em diferentes solventes, onde verificamos que a geometria molecular é planar e a molécula sofre uma grande polarização em solventes de maior polaridade. Teoricamente, reproduzimos os espectros de absorção em todos os solventes, mostrando que eles são compostos por três transições eletrônicas. Verificamos, experimental e teoricamente, que o Prodan forma agregados quando colocado em solução aquosa, em todas as concentrações estudadas (0.9 a 20.0 uM). Adicionalmente, foram medidos e comparados os espectros de emissão fluorescente, e mostramos que eles apresentam duas bandas de emissão em todos os solventes estudados e em bicamada lipídicas. Essas bandas estão relacionadas com dois tempos de vida, evidenciando a presença de dois estados excitados para essas sondas. Porém, a natureza dos estados excitados em solventes homogêneos e em bicamadas lipídicas parece ser diferente. Uma metodologia de análise dos espectros de emissão fluorescente foi proposta. A comparação dos espectros de emissão do Prodan e do Laurdan em bicamadas lipídicas mostrou que as sondas monitoram micro-ambientes ligeiramente diferentes. Nossos resultados indicam que os dois fluoróforos posicionam-se próximos à superfície da bicamada lipídica, porém o Prodan parece estar mais exposto à água. Além disso, o Prodan apresenta uma pequena partição em água, quando a bicamada está na fase gel. / Prodan (6-propionyl-2-dimethylamino-naphthalene) and Laurdan (6-dodecanoyl-2- dimethylamino-naphthalene) molecules are frequently used as fluorescent probes in lipid bilayers and, more rarely, in cell membranes. The objective of this PhD thesis was to study these probes in several environments, to increase the understanding about its structures and spectroscopic characteristics in several solvents and lipid bilayers. This study was carried out using two approaches: experimental and theoretical. With experimental and theoretical results, we demonstrated that the two molecules have the same chromophore. Experimentally, electronic absorption spectra were measured and compared in solvents of several polarities and lipid bilayers, for both molecules. A theoretical model was constructed for Prodans fundamental state in several solvents, in which we found that its molecular geometry is planar and that the molecule undergoes a great deal of polarization in solvents of higher polarity. Theoretically, we emulated the absorption spectra in all solvents studied, showing that they are well described by three electronic transitions. We verified, experimental and theoretically, that Prodan aggregates in aqueous solution at all concentration ranges (0.9 a 20.0 uM). Additionally, the fluorescent emission spectra were measured and compared, and we demonstrated that they are composed by two emission bands in all solvents and lipid bilayers. These bands were related to two fluorescent lifetimes, evidencing the presence of two excitation states for these probes. However, the nature of the excited states in homogeneous solvents and in lipid bilayers seems to be different. A methodology to analyze the emission spectra was proposed. The comparison of Prodans and Laurdans emission spectra in lipid bilayers showed that the probes monitor a slightly different micro-environment. Our results indicated that both fluorophores are located near the bilayers surface, although Prodan seems to be more exposed to water molecules. Besides that, Prodan partitions in water, when the bilayer is in the gel phase.

Absorção eletrônica

Bicamada lipídica

Cálculos quânticos

Fluoescência

Laurdan

Prodan

Simulações Computacionais

Absorção eletrônica

Bicamada lipídica

Cálculos quânticos

Fluorescência

Laurdan

Prodan

Simulação Computacionais

Pokročilé fluorescenční techniky ve výzkumu micelárních systémů a jejich interakcí s biopolymery / Advanced Fluorescence Techniques in Research on Micellar Systems and Their Interactions with Biopolymers

Holínková, Petra

January 2019

The dissertation thesis deals with study of advanced steady-state and time-resolved fluorescence techniques, which can be used for study of micellar systems properties. Selected fluorescence techniques were used for characterization of Septonex and CTAB cationic micellar systems and theirs interactions with hyaluronan. Fluorescent probe pyrene was used for determination of critical micelle concentration (CMC) and micellar aggregation number of these surfactants. The changes of fluorescence behaviour of fluorescein and prodan were studied in wide concentration range of Septonex. Next chapter of thesis deals with study of Förster resonance energy transfer between perylene and fluorescein in Septonex and CTAB micellar solutions and the effect of hyaluronan addition to these systems. Also steady-state and time-resolved fluorescence anisotropy studies were used for research of the effect of hyaluronan addition to micellar solutions. The last chapter of this thesis is focused on photophysical behaviour of Prodan in different solutions (water, Septonex solutions below CMC, hyaluronan solution, Septonex micellar solution and Septonex micellar solution with hyaluronan), which was discussed on the basis of time-resolved emission spectra.

Časově rozlišená fluorescence ve výzkumu kapalných a kondenzovaných systémů na bázi biopolymer-tenzid. / Time-resolved fluorescence study of liquid and condensed systems based on biopolymer-surfactant interactions.

Černá, Ladislava

January 2014

This thesis studies properties of hydrogel, which arises on the basis of electrostatic and hydrophobic interactions between hyaluronan chain and micelles of cationic surfactant. A native sodium hyaluronan at molecular weight 750–1 000 kDa and a cationic surfactant CTAB (cetyltrimethylammonium bromide) were used. This hydrogel was assessed as a material for drug delivery systems. The hydrogels were made by mixing 200mM CTAB with 0.5% hyaluronan, both dissolved in 0.15M aqueous solution of NaCl simulating physiological solution. Methods used in this study were steady-state and time-resolved fluorescence spectroscopy, more accurately time-resolved emission spectra (TRES) and deconvolution of steady-state emission spectra of a whole sample by means of parameters gained from fluorescence intensity decays at a set of wavelenghts. Selected systems were investigated by three fluorescent probes, prodan, laurdan and rhodamine 6G. The first two mentioned probes were in hydrogel localized only within micelles in three different microenvironments. Rhodamine 6G pointed out that in hydrogel the aqueous environment is significantly restricted in comparison to purely micellar solution. In addition, rhodamine informed about less available micelle surfaces, caused by hyaluronan chains occupation. There were no interactions between the probes and hyaluronan chains. Freshly made hydrogels showed almost the same results as after a week of maturation under its supernatant.

Experimental and stimulation analyses of fluorescent solvent relaxation process in biomembranes : Inflence of ions and molecular interpretation of the dye dynamics / Analyse expérimentale et numérique des processus de relaxation de solvant dans une membrane biologique : Rôle des ions et interprétation moléculaire de la dynamique des marqueurs fluorescents

Barucha-Kraszewska, Justyna

31 October 2012

De nombreux processus biologiques liés aux membranes cellulaires lipidiques sont encore très mal connus. La présence d'eau et d'ions à l'interface influence les propriétés structurelles et dynamiques de la bicouche lipidique. Les techniques de fluorescence sont très utiles pour étudier les membranes en raison de la grande sensibilité des sondes à leur environnement. Nous avons utilisé la technique de relaxation de solvant (SR) pour explorer l'hydratation et la mobilité de l'eau. Nous avons également réalisé des calculs quantiques (QM) et des dynamiques moléculaires (DM) pour étayer nos expériences. Les résultats SR montrent qu'un petit cation (Na+) est très attiré par la membrane et augmente sa rigidité à l'opposé des cations (NH4+, Cs+) plus gros. Les anions (CI04-, SCN-) s'adsorbent à l'interface plus facilement que Cl-. Ces anions changent la mobilité et l'hydratation des têtes polaires des lipides de la bicouche. Les études SR de la zone hydrophobe de la membrane montrent que les processus de relaxation sont ici très complexes. lis reflètent des processus rapides intramoléculaire (relaxation de torsion, transferts de charge) et des processus intermoléculaires lents. Les calculs QM ont permis de créer les champs de force de trois sondes fluorescentes (Prodan, Laurdan et C-laurdan). Les simulations DM ont permis de déterminer les positions des sondes dans une membrane DOPC. La modélisation reproduit correctement les résultats SR, en particulier les temps de relaxation : de l'ordre de la ps en solvant aqueux et de la ns dans la membrane. Les simulations MD sont complémentaires des méthodes SR et permettent de surveiller le comportement de molécules uniques. / Many biologically important processes and phcnomena in lipid membranes are still not fully understood. The presence of ions and water molœules has a significant influence on the structural and dynamical properties of lipid bilayers. Fluorescent techniques are versatile tools for studying the lipid membranes, because the fluorescence emission is strongly sensitive to dye environment. We have conducted fluorescent solvent relaxation (SR) experiments to explore the hydration and mobility properties in lipid membranes in the presence of different chaotropic ions. We have also carried out Quantum Mechanical (QM) calculations and Molecular Dynamics (MD) simulations for supporting the SR experiments. SR experiments show that small cation (Na+) is attracted to the membrane and increases rigidity ofbilayer, while larger cations (NH/, Cs+) should not. Large anions (CI04·, SCN') adsorl, at the membrane interface more easily than smaller ones (Cl') and significantly change tl!e mobility and hydration of the headgroup region oflipid bilayer. SR study ofhydrophobic part of the membrane show that SR processes are complex there and reflect botl!: faster, intramolecular (torsional relaxation or fonnation of charge transfer state) and slower, intermolecular (SR) relaxation processes. QM calculatiom were used to create force-field for three fluorescent dyes (Prodan, Laurdan and C-laurdan). MD simulations allow detennining position of the dye in the lipid membrane in the ground state and after excitation and reproduce correctly SR timescale- ps in water and ns in the membrane. MD simulations extend the capabilities of SR method and allow observing the behaviour of individual molecules.

Sonde fluorescente

Relaxation du solvant fluorescent

Prodan, laurdan, c-laurdan

Calcul de la mécanique quantique

Simulation de dynamique moléculaire

Membrane lipidique

Ion chaotropic

Fluorescent probe

Fluorescent solvent relaxation

Prodan, laurdan, c-laurdan

Quantum mechanics calculation

Molecular dynamics simulation

Lipid membrane

Chaotropic ion

572.8