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Structurally Dynamic Monocyte-Liposome Hybrid Vesicles as an Anticancer Drug Delivery Vehicle: A Crucial Correlation of Microscopic Elasticity and Ultrafast Dynamics.

Ria GhoshLopamudra RoyDipanjan MukherjeeSushmita SarkerJayanta MondalNivedita PanMd Nur HasanSubhajit GhoshArpita ChattopadhyayArghya AdhikaryMaitree BhattacharyyaAsim Kumar MallickRanjit BiswasRanjan DasSamir Kumar Pal
Published in: The journal of physical chemistry letters (2024)
A biomimetic cell-based carrier system based on monocyte membranes and liposomes has been designed to create a hybrid "Monocyte-LP" which inherits the surface antigens of the monocytes along with the drug encapsulation property of the liposome. Förster resonance energy transfer (FRET) and polarization gated anisotropy measurements show the stiffness of the vesicles obtained from monocyte membranes (Mons), phosphatidylcholine membranes (LP), and Monocyte-LP to follow an increasing order of Mons > Monocyte-LP > LP. The dynamics of interface bound water molecules plays a key role in the elasticity of the vesicles, which in turn imparts higher delivery efficacy to the hybrid Monocyte-LP for a model anticancer drug doxorubicin than the other two vesicles, indicating a critical balance between flexibility and rigidity for an efficient cellular uptake. The present work provides insight on the influence of elasticity of delivery vehicles for enhanced drug delivery.
Keyphrases
  • energy transfer
  • dendritic cells
  • drug delivery
  • peripheral blood
  • endothelial cells
  • quantum dots
  • immune response
  • stem cells
  • emergency department
  • single cell
  • fluorescent probe
  • sensitive detection
  • drug induced