Metalloporphyrin intercalation in liposome membranes: ESR study

Man, Dariusz; Słota, Rudolf; Broda, Małgorzata A.; Mele, Giuseppe; Li, Jun

doi:10.1007/s00775-010-0715-1

Cited by 37 publications

(127 citation statements)

References 52 publications

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“…The liposomes used in our study were in the form of bubbles surrounded by a lipid bilayer membrane composed of phospholipids which surround the chain -proteins called apolipoproteins [11,12,16,17]. The fi lm of liposomes is constructed analogously to these biological membranes.…”

Section: Resultsmentioning

confidence: 99%

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Impact of humic acids on EYL liposome membranes: ESR method

et al. 2015

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Abstract. In this paper, the effects of model (commercial) and natural (extracted from peat) humic substances on the membrane of liposomes formed with egg yolk lecithin (EYL) are presented. In our research, mass concentrations of fulvic and humic acids were used, which in relation to lecithin varied from 0% to 13%. To study membrane fl uidity, electron spin resonance (EPR) was used with two spin probes, penetrating various regions of the lipid bilayer. The effects of model and natural humic substances (humic acids -HAs and fulvic acidsFAs) on the lipid membrane in different regions were researched: the lipid-water interphase, and in the middle of the lipid bilayer. It was shown that FA and HA impact the fl uidity of liposome membranes in different ways. Increased mass concentrations of HAs decreased membrane fl uidity in both acids: extracted from peat and the model. However, increased mass concentration of FAs extracted from peat, decreased membrane fl uidity in the surface region, at the same time stiffening the central part of the bilayer. Increasing the concentration of FAs extracted from peat had the opposite effect when compared to model FA. This effect may be related to the complexation of xenobiotics present in the soil environment and their impact on biological membranes.

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Section: Resultsmentioning

confidence: 99%

“…2b), index (rotational correlation time) was determined. The value of this parameter depends on the fl uidity of the lipid bilayer [16][17][18]. A decrease of parameter  indicates an increased interior membrane fl uidity -increased rotational speed of the probe.…”

Section: Liposomes Preparationmentioning

confidence: 99%

Impact of humic acids on EYL liposome membranes: ESR method

et al. 2015

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“…In order to better understand the processes in the lipid bilayer, we developed a computer model of the lipid membrane and conducted an EPR experiment. The comparison of the results collected during computer simulations, with the ones obtained by EPR measurement [3], showed that several properties of lipid membranes could be associated with the structure of their surface layer. The Coulomb interactions between polar heads of the surface layer seem to be essential for the membranes in the liquid state [4].…”

Section: Introductionmentioning

confidence: 88%

The dynamics of the surface layer of lipid membranes doped by vanadium complex: computer modeling and EPR studies

2015

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Abstract. Penetration of the liposome membranes doped with vanadium complex formed in the liquid-crystalline phase from egg yolk lecithin (EYL) by the TEMPO (2,2,6,6-tetramethylpiperidine-1-oxyl) spin probes has been investigated. The penetration process was followed by 360 hours at 24C, using the electron spin resonance (EPR) method. The spectroscopic parameter of the partition (F) of this probe indicated that a maximum rigidity of the membrane was at 3% concentration of the vanadium complex. Computer simulations showed that the increase in the rigidity of the membrane corresponds to the closure of gaps in the surface layer of the membrane, and indicates the essential role of the membrane surface in transport processes.

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“…As reported elsewhere, organometallic compounds may more or less affect the membrane's physical parameters [12][13][14]. Likewise, our previous investigations were focused mainly on structural deviations induced within the lipid arrangement by different amounts of such additives [15][16][17][18][19] including the effect of the interaction time [20,21]. On the other hand, the present work contains some novel aspects regarding the behavior of intercalated phospholipid systems, in particular the impact of the dopant's molecular structure and its static electrical charge.…”

Section: Introductionmentioning

confidence: 89%

Liposomes modified by mono- and bis-phthalocyanines: A comprehensive EPR study

et al. 2017

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Abstract. The impact of selected metallophthalocyanines, featuring diverse molecular structure, upon the fluidity of liposome membranes was studied using the spin label EPR technique. The "mono"-type MPc's (M = Zn, Sn; Pc = C 32H16N8 is the phthalocyanine ligand) and sandwich LnPc2 complexes (Ln = Nd, Sm, Gd) were explored. Liposomes were obtained in a sonication process, from egg yolk lecithin (EYL) in water. TEMPO and 16-DOXYL spin labels were used to monitor the peripheral and central part of the lipid double layer, respectively, which allowed to localize the phthalocyanine additive within the bilayer, as well as to perform independent measurements of changes in fluidity upon addition thereof. All the complexes tested were found to increase the fluidity in the middle of the lipid bilayer. However, at the water-lipid interface the LnPc 2 compounds showed a relative small effect upon the phospholipids' arrangement, whereas in the case of ZnPc and SnPc it was found much more pronounced. EPR results were supplemented by measurements of static electrical charge, the investigated phthalocyanines may potentially feed into the membrane thus affecting its stability.

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Metalloporphyrin intercalation in liposome membranes: ESR study

Cited by 37 publications

References 52 publications

Impact of humic acids on EYL liposome membranes: ESR method

Impact of humic acids on EYL liposome membranes: ESR method

The dynamics of the surface layer of lipid membranes doped by vanadium complex: computer modeling and EPR studies

Liposomes modified by mono- and bis-phthalocyanines: A comprehensive EPR study

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