Exosomes: Potential model for complement-stealth delivery systems

Exosomes are nature's nanocarriers that transport biological information in humans. Their structural properties, origin and functions are making them interesting objects for the diagnosis of diseases, such as cancer, and also, as innovative tools for drug delivery. The interaction of exosomes with the immune system has been one of the focal points of interest; nevertheless their "stealth" properties helping to avoid adverse immune reactions are still not fully understood. In this review, after giving an overview of recent findings on the role of exosomes in disease pathogenesis and physiological functions, we focused on their interaction with the immune system and possibilities for clinical applications. The potential of exosomes of creating stealth nanoparticles that are better tolerated by the immune system than the presently available synthetic drug delivery systems represent a promising new approach in nanomedicine. © 2015 by De Gruyter 2015

Flow cytometric analysis of supravesicular structures in doxorubicin-containing pegylated liposomes

In an attempt to develop a quantitative assay for supravesicular structures (SVS) - such as aggregates, fused liposomes or solid lipid particles - in liposome preparations, forward vs. side scattering of liposomal doxorubicin (Doxil/Caelyx) was analyzed by flow cytometry. Based on calibration with fluorescent latex beads, the size resolution was between about 500 and 1000nm. Caelyx, just as structurally matched empty liposomes (Doxebo) produced dot plots clearly distinguishable from background, suggesting the presence of SVS in the above size region. A comparison of gated areas on the scattergrams obtained for different Caelyx preparations showed differences between current and expired samples, implying that SVS formation may be storage-time-dependent. Incubation of doxorubicin with Doxebo in a free drug and lipid concentration range that corresponds to that in Caelyx also led to varying SVS patterns, raising the possibility that free doxorubicin in Caelyx might contribute to SVS formation. Dynamic light scattering and transmission electron microscopic analysis of liposomes following gaiting and sorting of >500nm particles from Caelyx confirmed the presence of SVS, providing independent evidence for their stable existence. Based on a rough estimation, the amount of SVS in Caelyx is some 60 billionth part of all liposomes. These observations raise the possibility that the presence of an exceedingly small fraction of >500nm particles may be an intrinsic property of PEGylated small unilamellar liposomes, and that the described FACS analysis may be developed further as a quality assay for liposomal homogeneity