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1.
Int J Nanomedicine ; 6: 2737-48, 2011.
Article in English | MEDLINE | ID: mdl-22128248

ABSTRACT

BACKGROUND: Shedding of nanoparticles from the cell membrane is a common process in all cells. These nanoparticles are present in body fluids and can be harvested by isolation. To collect circulating nanoparticles from blood, a standard procedure consisting of repeated centrifugation and washing is applied to the blood samples. Nanoparticles can also be shed from blood cells during the isolation process, so it is unclear whether nanoparticles found in the isolated material are present in blood at sampling or if are they created from the blood cells during the isolation process. We addressed this question by determination of the morphology and identity of nanoparticles harvested from blood. METHODS: The isolates were visualized by scanning electron microscopy, analyzed by flow cytometry, and nanoparticle shapes were determined theoretically. RESULTS: The average size of nanoparticles was about 300 nm, and numerous residual blood cells were found in the isolates. The shapes of nanoparticles corresponded to the theoretical shapes obtained by minimization of the membrane free energy, indicating that these nanoparticles can be identified as vesicles. The concentration and size of nanoparticles in blood isolates was sensitive to the temperature during isolation. We demonstrated that at lower temperatures, the nanoparticle concentration was higher, while the nanoparticles were on average smaller. CONCLUSION: These results indicate that a large pool of nanoparticles is produced after blood sampling. The shapes of deformed blood cells found in the isolates indicate how fragmentation of blood cells may take place. The results show that the contents of isolates reflect the properties of blood cells and their interaction with the surrounding solution (rather than representing only nanoparticles present in blood at sampling) which differ in different diseases and may therefore present a relevant clinical parameter.


Subject(s)
Blood Cells/chemistry , Blood Cells/cytology , Cytoplasmic Vesicles/chemistry , Flow Cytometry/methods , Nanoparticles/chemistry , Adult , Animals , Blood Cells/ultrastructure , Cell Shape , Cytoplasmic Vesicles/ultrastructure , Female , Horses , Humans , Male , Microscopy, Electron, Scanning , Middle Aged , Nanoparticles/ultrastructure , Pancreatic Neoplasms/blood , Particle Size , Temperature
2.
J Membr Biol ; 236(1): 43-53, 2010 Jul.
Article in English | MEDLINE | ID: mdl-20623113

ABSTRACT

In biological systems, charged membrane surfaces are surrounded by charged molecules such as electrolyte ions and proteins. Our recent experiments in the systems of giant phospholipid vesicles indicated that some of the blood plasma proteins (macro-ions) may promote adhesion between equally charged membrane surfaces. In this work, theory was put forward to describe an IgG antibody-mediated attractive interaction between negatively charged membrane surfaces which was observed in experiments on giant phospholipid vesicles with cardiolipin-containing membranes. The attractive interactions between negatively charged membrane surfaces in the presence of negatively and positively charged spherical macro-ions are explained using functional density theory and Monte Carlo simulations. Both, the rigorous solution of the variational problem within the functional density theory and the Monte Carlo simulations show that spatial and orientational ordering of macro-ions may give rise to an attractive interaction between negatively charged membrane surfaces. It is also shown that the distinctive spatial distribution of the charge within the macro-ions (proteins) is essential in this process.


Subject(s)
Anions/chemistry , Cell Membrane/chemistry , Immunoglobulin G/chemistry , Membranes, Artificial , Models, Chemical , Phospholipids/chemistry , Humans , Monte Carlo Method
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