Spectroscopy Study of Albumin Interaction with Negatively Charged Liposome Membranes: Mutual Structural Effects of the Protein and the Bilayers

Tretiakova, Daria; Kobanenko, Maria; Le-Deygen, Irina M.; Болдырев, Иван; Kudryashova, Еlena V.; Onishchenko, Natalia; Водовозова, Е. Л.

doi:10.3390/membranes12111031

Cited by 5 publications

(5 citation statements)

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“…Currently, there are no established guidelines for studying the liposomal protein corona, although many research groups have focused their attention on this subject. 3 , 16 , 38 , 75 , 76 Despite some well-described caveats, 77 centrifugation is currently the most used method for the separation of vesicle-protein assemblies from unbound proteins. 78 Thus, the following experiments and quantitative aspects relating to liposome–protein isolation through centrifugation are described with regard to the population of liposomes that are able to pellet upon centrifugation.…”

Section: Resultsmentioning

confidence: 99%

“…Kristensen et al also propose that albumin prefers to interact with liposomal hydrophobic domains, exposed through packing defects . Tretiakova et al, on the other hand, found that albumin adsorption on liposomes with various compositions primarily affects lipid polar headgroups by disrupting surface water hydrogen-bonding networks, leading to the formation of novel hydrogen bonds between lipid headgroups and the protein surface . Albumin adsorption to DMPC vesicles has also been described as being governed by electrostatic interactions by the work of Sabín et al, although hydrophobic interactions, mainly due to bilayer core penetration by the protein, are also acknowledged …”

Section: Introductionmentioning

confidence: 99%

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Impact of Lipid Composition on Vesicle Protein Adsorption: A BSA Case Study

Amărandi,

Neamṭu,

Ştiufiuc

et al. 2024

ACS Omega

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Investigating the interaction between liposomes and proteins is of paramount importance in the development of liposomal formulations with real potential for bench-to-bedside transfer. Upon entering the body, proteins are immediately adsorbed on the liposomal surface, changing the nanovehicles' biological identity, which has a significant impact on their biodistribution and pharmacokinetics and ultimately on their therapeutic effect. Albumin is the most abundant plasma protein and thus usually adsorbs immediately on the liposomal surface. We herein report a comprehensive investigation on the adsorption of model protein bovine serum albumin (BSA) onto liposomal vesicles containing the zwitterionic lipid 1,2-dipalmitoyl-sn-glycero-3phosphocholine (DPPC), in combination with either cholesterol (CHOL) or the cationic lipid 1,2-dioleoyl-3-trimethylammoniumpropane (DOTAP). While many studies regarding protein adsorption on the surface of liposomes with different compositions have been performed, to the best of our knowledge, the differential responses of CHOL and DOTAP upon albumin adsorption on vesicles have not yet been investigated. UV−vis spectroscopy and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) revealed a strong influence of the phospholipid membrane composition on protein adsorption. Hence, it was found that DOTAP-containing vesicles adsorb proteins more robustly but also aggregate in the presence of BSA, as confirmed by DLS and TEM. Separation of liposome−protein complexes from unadsorbed proteins performed by means of centrifugation and size exclusion chromatography (SEC) was also investigated. Our results show that neither method can be regarded as a golden experimental setup to study the protein corona of liposomes. Yet, SEC proved to be more successful in the separation of unbound proteins, although the amount of lipid loss upon liposome elution was higher than expected. In addition, coarse-grained molecular dynamics simulations were employed to ascertain key membrane parameters, such as the membrane thickness and area per lipid. Overall, this study highlights the importance of surface charge and membrane fluidity in influencing the extent of protein adsorption. We hope that our investigation will be a valuable contribution to better understanding protein−vesicle interactions for improved nanocarrier design.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Impact of Lipid Composition on Vesicle Protein Adsorption: A BSA Case Study

Amărandi,

Neamṭu,

Ştiufiuc

et al. 2024

ACS Omega

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“…Attenuated total reflectance (ATR)-FTIR spectrum of the co-loaded SOD1/enalaprilat CaP-particles covered with 5 kDa chitosan ( Figure 2 a) demonstrate the presence of all compounds—SOD1, enalaprilat and chitosan—within the particles. The incorporation of SOD1 and enalaprilat into CaP-particles resulted in a significant increase in the intensity in the regions of 1700–1600 cm −1 and 1600–1500 cm −1 , which can be attributed to the amide I and amide II of SOD1 [ 52 , 53 ] and vibrations of the aromatic structure of enalaprilat ( Figure 2 b,c). In addition, the inclusion of drugs in hybrid and CaP-particles was also evidenced by the intensity increase in the 1415–1375 cm −1 region, which can be attributed to the SOD1 and enalaprilat aromatic ring vibrations.…”

Section: Resultsmentioning

confidence: 99%

“…The interaction of CaP-particles with the chitosan “coat” is also clearly indicated by the dramatic intensity decrease in the 1260–1220 cm −1 region after particle covering. This is the main analytically significant band in CaP-particles—absorption band of the valent oscillations of the phosphate group (1220–1260 cm −1 ) [ 54 ], the main site of CaP-particles interaction with cationic groups of chitosan and the protein, SOD1 [ 53 , 54 , 55 ]. At the same time, the intensity of the absorption peak observed for CaP-particles at 950 cm −1 (corresponding to C⎯N bonds vibrations in chitosan [ 52 ]) increased as a result of chitosan covering, whereas the incorporation of SOD and enalaprilat into the particles resulted in a decrease in the intensity.…”

Section: Resultsmentioning

confidence: 99%

Chitosan-Covered Calcium Phosphate Particles Co-Loaded with Superoxide Dismutase 1 and ACE Inhibitor: Development, Characterization and Effect on Intraocular Pressure

et al. 2023

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Improvement of the efficiency of drug penetration into the eye tissues is still an actual problem in ophthalmology. One of the most promising solutions is drug encapsulation in carriers capable of overcoming the cornea/sclera tissue barrier. Formulations on the base of antioxidant enzyme, superoxide dismutase 1 (SOD1), and an inhibitor of angiotensin-converting enzyme, enalaprilat, were prepared by simultaneous inclusion of both drugs into calcium phosphate (CaP) particles in situ with subsequent covering of the particles with 5 kDa chitosan. The formulations obtained were characterized by dynamic light scattering and scanning electron microscopy. Hybrid CaP-chitosan particles co-loaded with SOD1 and enalaprilat had a mean hydrodynamic diameter of 120–160 nm and ζ-potential +20 ± 1 mV. The percentage of the inclusion of SOD1 and enalaprilat in hybrid particles was 30% and 56%, respectively. The ability of SOD1 and enalaprilat to reduce intraocular pressure (IOP) was examined in vivo in normotensive Chinchilla rabbits. It was shown that topical instillations of SOD1/enalaprilat co-loaded hybrid particles were much more effective in decreasing IOP compared to free enzyme or free enalaprilat and even to the same particles that contained a single drug. Thus, the proposed formulations demonstrate potential as prospective therapeutic agents for the treatment of glaucoma.

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“…When exposed to serum or plasma, liposomes quickly adsorb large amounts of protein. Albumin, the most abundant negatively charged serum protein, binds to the surface of positively charged liposomes ( Tretiakova et al, 2022 ). Liposomes that bind to plasma proteins act as an opsonin, promoting specific interactions with receptors on macrophages or hepatocytes, thereby increasing liposome uptake by these cells ( Yan et al, 2005 ).…”

Section: Designing Nanocarrier Liposomes For Drug Deliverymentioning

confidence: 99%

Advancing liposome technology for innovative strategies against malaria

Miatmoko,

Octavia,

Araki

et al. 2024

Saudi Pharmaceutical Journal

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Spectroscopy Study of Albumin Interaction with Negatively Charged Liposome Membranes: Mutual Structural Effects of the Protein and the Bilayers

Cited by 5 publications

References 50 publications

Impact of Lipid Composition on Vesicle Protein Adsorption: A BSA Case Study

Impact of Lipid Composition on Vesicle Protein Adsorption: A BSA Case Study

Chitosan-Covered Calcium Phosphate Particles Co-Loaded with Superoxide Dismutase 1 and ACE Inhibitor: Development, Characterization and Effect on Intraocular Pressure

Advancing liposome technology for innovative strategies against malaria

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