Stiffness of HIV‐1 Mimicking Polymer Nanoparticles Modulates Ganglioside‐Mediated Cellular Uptake and Trafficking

Stiffness of HIV‐1 Mimicking Polymer Nanoparticles Modulates Ganglioside‐Mediated Cellular Uptake and Trafficking

The monosialodihexosylganglioside, GM3, and its binding to CD169 (Siglec‐1) have been indicated as key factors in the glycoprotein‐independent sequestration of the human immunodeficiency virus‐1 (HIV‐1) in virus‐containing compartments (VCCs) in myeloid cells. Here, lipid‐wrapped polymer nanoparticl...

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Bibliographic Details
Published in:Advanced science Vol. 7; no. 18; pp. 2000649 - n/a
Main Authors: Eshaghi, Behnaz, Alsharif, Nourin, An, Xingda, Akiyama, Hisashi, Brown, Keith A., Gummuluru, Suryaram, Reinhard, Björn M.
Format: Journal Article
Language:English
Published: Germany John Wiley & Sons, Inc 01-09-2020
John Wiley and Sons Inc
Wiley
Subjects:
biomimetic nanoparticles
Dendritic cells
endocytosis
Glycoproteins
HIV
Human immunodeficiency virus
Infections
lectins
Ligands
Lipids
lipid‐wrapped nanoparticles
Molecular weight
Nanoparticles
Polylactic acid
Polymers
siglec‐1
Standard deviation
Viral infections
Viruses
Viscosity
biomimetic nanoparticles
endocytosis
lipid‐wrapped nanoparticles
lectins
siglec‐1
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Summary:The monosialodihexosylganglioside, GM3, and its binding to CD169 (Siglec‐1) have been indicated as key factors in the glycoprotein‐independent sequestration of the human immunodeficiency virus‐1 (HIV‐1) in virus‐containing compartments (VCCs) in myeloid cells. Here, lipid‐wrapped polymer nanoparticles (NPs) are applied as a virus‐mimicking model to characterize the effect of core stiffness on NP uptake and intracellular fate triggered by GM3‐CD169 binding in macrophages. GM3‐functionalized lipid‐wrapped NPs are assembled with poly(lactic‐co‐glycolic) acid (PLGA) as well as with low and high molecular weight polylactic acid (PLAlMW and PLAhMW) cores. The NPs have an average diameter of 146 ± 17 nm and comparable surface properties defined by the self‐assembled lipid layer. Due to differences in the glass transition temperature, the Young's modulus (E) differs substantially under physiological conditions between PLGA (EPLGA = 60 ± 32 MPa), PLAlMW (EPLAlMW = 86 ± 25 MPa), and PLAhMW (EPLAhMW = 1.41 ± 0.67 GPa) NPs. Only the stiff GM3‐presenting PLAhMW NPs but not the softer PLGA or PLAlMW NPs avoid a lysosomal pathway and localize in tetraspanin (CD9)‐positive compartments that resemble VCCs. These observations suggest that GM3‐CD169‐induced sequestration of NPs in nonlysosomal compartments is not entirely determined by ligand–receptor interactions but also depends on core stiffness. Human immunodeficiency virus‐1 mimicking monosialodihexosylganglioside‐presenting polymeric nanoparticles with different core stiffnesses are generated, and their intracellular fate in CD169‐expressing macrophages is monitored. It is found that ligand and core stiffness together determine the intracellular fate of the lipid‐wrapped nanoparticles. These findings provide new insights into the importance of the mechanical properties of the virus particle for its function in infection.
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ISSN:2198-3844
2198-3844
DOI:10.1002/advs.202000649