Diphenylhexatriene membrane probes DPH and TMA-DPH: A comparative molecular dynamics simulation study

Canto, A.M.T. Martins do; Robalo, João R.; Santos, Patrícia Roberta dos; Carvalho, A.J. Palace; Ramalho, J. P. Prates; Loura, Luís M. S.

doi:10.1016/j.bbamem.2016.07.013

Cited by 103 publications

(75 citation statements)

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“…Steady-state anisotropy of the probe in non-organized systems such as in n-heptane reached values 0.001. In organized systems such as liposomes, DPH-TMA is oriented along the hydrocarbon chains 20 in which rotation is reduced and anisotropy is increased. With decreasing fluidity of the bilayer structure, anisotropy values increased from 0.195 (without cholesterol) to 0.265 (50 mol% of cholesterol) ( Fig.…”

Section: Effect Of Cholesterol On the Size Distribution Of Liposomes mentioning

confidence: 99%

“…We tested the effect of lipid membrane fluidity on the final morphology of liposomes expressed as the size distribution, polydispersity, and lamellarity. Based on exact measurements of lipid membrane fluidity (polarization of fluorescence) we predicted the effect of this parameter on the critical size of disc micelle intermediates and therefore their tendency to vesiculate and form liposomes 3,19,20 . Experimental data were compared with theoretical prediction following from the model based on Helfrich bending energy and analyses of the energetics and thermodynamics of vesicle formation 15 .…”

Section: Introduction Of Microfluidic Mixing Technique Opens a New Domentioning

confidence: 99%

“…Microfluidic mixing as the method using low dispersive energy represents a promising technology to produce complex liposomal preparations 10 and the application of on-chip technology as demonstrated recently 2,11 . Gadolinium complexes are used as MRI contrast agents and liposomes represents a versatile platform for the application of gadolinium in vivo imaging and development of theranostics [18][19][20] . Our manuscript describes the application of microfluidic mixing for the preparation of Ga-liposomal contrast for MRI.…”

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Preparation of nanoliposomes by microfluidic mixing in herring-bone channel and the role of membrane fluidity in liposomes formation

Kotouček

Hubatka

Mašek

et al. 2020

Sci Rep

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Introduction of microfluidic mixing technique opens a new door for preparation of the liposomes and lipid-based nanoparticles by on-chip technologies that are applicable in a laboratory and industrial scale. This study demonstrates the role of phospholipid bilayer fragment as the key intermediate in the mechanism of liposome formation by microfluidic mixing in the channel with “herring-bone” geometry used with the instrument NanoAssemblr. The fluidity of the lipid bilayer expressed as fluorescence anisotropy of the probe N,N,N-Trimethyl-4-(6-phenyl-1,3,5-hexatrien-1-yl) was found to be the basic parameter affecting the final size of formed liposomes prepared by microfluidic mixing of an ethanol solution of lipids and water phase. Both saturated and unsaturated lipids together with various content of cholesterol were used for liposome preparation and it was demonstrated, that an increase in fluidity results in a decrease of liposome size as analyzed by DLS. Gadolinium chelating lipids were used to visualize the fine structure of liposomes and bilayer fragments by CryoTEM. Experimental data and theoretical calculations are in good accordance with the theory of lipid disc micelle vesiculation.

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Section: Effect Of Cholesterol On the Size Distribution Of Liposomes mentioning

confidence: 99%

Section: Introduction Of Microfluidic Mixing Technique Opens a New Domentioning

confidence: 99%

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confidence: 99%

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Preparation of nanoliposomes by microfluidic mixing in herring-bone channel and the role of membrane fluidity in liposomes formation

Kotouček

Hubatka

Mašek

et al. 2020

Sci Rep

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“…This difference is highlighted by the incubation time of the two probes used. It has been reported that the hydrophobic fluorophore DPH is located in the inner region of the phospholipid bilayer, whereas TMA-DPH is more hindered in translational and rotational motions compared to DPH [59]. Therefore, DPH estimates the motional order of the inner hydrophobic membrane region, while TMA-DPH senses changes in motional order at the interface region.…”

Section: Cell Membrane Motional Order Of Adherent Lx-2 Cellsmentioning

confidence: 99%

Synergy of Phospholipid—Drug Formulations Significantly Deactivates Profibrogenic Human Hepatic Stellate Cells

et al. 2019

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The pivotal role of hepatic stellate cells (HSCs) in orchestrating the bidirectional process of progression and regression of liver fibrosis makes them an ideal target for exploring new antifibrotic therapies. Essential phospholipids (EPLs), with their polyenylphosphatidylcholine (PPC) fraction, either alone or combined with other hepatoprotective substances such as silymarin, are recommended in hepatic impairment, but a scientific rationale for their use is still lacking. Herein, we compared the ability of EPLs to restore quiescent-like features in HSCs with that of dilinoleoylphosphatidylcholine (DLPC), PPC fraction's main component. Specifically, we screened at the cellular level the antifibrotic effects of PPC formulations in the presence and absence of silymarin, by using LX-2 cells (pro-fibrogenic HSCs) and by assessing the main biochemical hallmarks of the activated and deactivated states of this cell line. We also proved the formulations' direct effect on the motional order of cell membranes of adherent cells. LX-2 cells, examined for lipid droplets as a quiescence marker, showed that PPCs led to a more prominent deactivation than DLPC. This result was confirmed by a reduction of collagen and α-SMA expression, and by a profound alteration in the cell membrane fluidity. PPC-silymarin formulations deactivated HSCs with a significant synergistic effect. The remarkable bioactivity of PPCs in deactivating fibrogenic HSCs paves the way for the rational design of new therapeutics aimed at managing hepatic fibrosis.

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“…Em fase gel, com o maior alinhamento das caudas, o movimento restrito implica menor diferença entre as componentes emitidas (menor anisotropia), crescente de acordo com a fluidez das caudas e maior rotação da sonda. Pela baixa perturbação, a técnica vem sendo utilizada experimentalmente [35] e teoricamente ( [36], [37], [38], [39], [40], [41]).…”

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Estudo teórico da interação entre líquido iônico e bicamadas fosfolipídicas

Lazarotto¹

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AgradecimentosEste trabalho, conduzido ao longo de 2 anos, contou com financiamento da CAPES ao programa Biocomputacional sob o processo 88882.160171/2017-01.Agradeço à Kaline, pela oportunidade, assistência e tratamento amistoso, permitindo tranquilidade a um longo trabalho. Foi um privilégio contar com sua experiência.Aos colegas com quem dividi espaço, Leandro e Henrique, pelas incontáveis ajudas e sugestões, desde minhas primeiras simulações até as menores dúvidas, minha sincera gratidão. À Pamela, pela fortuita felicidade de ter partilhado de sua companhia. Ao Julian, pelo apreço e amizade que dispôs, e em particular pela ajuda na construção das topologias, executada com eficiência germânica.Ao Fabio e ao Valdir, pela atenção, prontidão e esforço contra as diversas e ferrenhas pendências técnicas com computadores e servidores. À Fátima, Bianca e Edineusa, pela organização das atividades do departamento e tratamento cordial, em especial pela ajuda na impressão deste trabalho. À todos os demais funcionários do IFUSP pelo diligente trabalho. À todos os colegas que tive o prazer de conhecer por circunstância deste trabalho, em congressos, cursos ou reuniões. Aos amigos mais antigos pelo apoio e por compartilharem das vicissitudes do meio científico.À Vanessa e ao Bruno, pelo acolhimento e divertimento que me proporcionaram desde meu primeiro dia em São Paulo. Obrigado por zelarem por mim. À Larissa, por ter me estimulado desde as primeiras lições de física e por ter sido meu refúgio. Obrigado por ter se mantido tão perto.Aos meus pais, meus mais sinceros agradecimentos, os quais preencheriam mais páginas do que disponho. Impensável me olhar hoje sem ver o reflexo de vocês. IWell, that's Philosophy I've read, And Law and Medicine, and I fear Theology too, from A to Z; Hard studies all, that have cost me dear.And so I sit, poor silly man, No wiser now than when I began.Johann Wolfgang von Goethe, Faust (1808) II ResumoExperimentalmente, a transição entre as fases gel e gel-líquida de bicamadas fosfolipídicas pode ser mensurada por técnicas de anisotropia de fluorescência. A partir de uma sonda interna à membrana, a diferença entre as radiações absorvida e emitida, causada pela rotação da sonda no intervalo de fluorescência, relaciona-se com a fluidez da membrana. Com esta técnica aplicada à sondas DPH, foi encontrada influência do líquido iônico (LI) C14MImCl na temperatura de transição de fase de fosfolipídios carregados (DPPG), mas não nos casos neutros (DPPC e DMPC). A temperatura de transição para DPPG apresenta queda de 45 o C, em estado puro, para 26 o C com concentração de 30%mol de LI. Neste estudo, simulações de dinâmica molecular foram conduzidas de forma a descrever as interações de LI com os fosfolipídios de bicamadas em dois casos, DPPC e DPPG, e de analisar o comportamento dinâmico da sonda. Diferentes condições iniciais de mistura entre lipídios e LI foram consideradas nas simulações. Os resultados indicam que, quando misturadas aleatoriamente, ambos os lipídios apresentam agregação espontânea, evol...

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Diphenylhexatriene membrane probes DPH and TMA-DPH: A comparative molecular dynamics simulation study

Cited by 103 publications

References 100 publications

Preparation of nanoliposomes by microfluidic mixing in herring-bone channel and the role of membrane fluidity in liposomes formation

Preparation of nanoliposomes by microfluidic mixing in herring-bone channel and the role of membrane fluidity in liposomes formation

Synergy of Phospholipid—Drug Formulations Significantly Deactivates Profibrogenic Human Hepatic Stellate Cells

Estudo teórico da interação entre líquido iônico e bicamadas fosfolipídicas

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