What question did this study set out to answer?

The aim is to develop nanocarriers that mimic viruses to improve drug delivery within cells.

May 8, 2026

Rational Synthesis of Virus-Mimicking Nanocarriers for Enhanced Intracellular Delivery through Polyvalent Interactions with Cells

Key Points

The aim is to develop nanocarriers that mimic viruses to improve drug delivery within cells.
Nanocarrier shells were synthesized and manipulated using porogen removal to create hydrophobic protrusions.
Protrusions enhanced polyvalent interactions with cell membranes to improve cellular uptake.
Cavities within nanocarriers were loaded with drugs for effective cytoplasmic delivery.
Increased protrusions correlated with improved cellular uptake and endo/lysosomal escape.
Cytoplasmic delivery of drugs demonstrated maximal therapeutic efficacy through the engineered nanocarriers.

Abstract

shell and then exposed to a good solvent, the polymer is swollen to generate an internal pressure against the shell. By adjusting the extent of porogen removal, the swollen polymer can push through the shell from one, two, or multiple sites to create up to 175 hydrophobic protrusions while leaving behind a cavity inside the shell. As the number of protrusions increases, polyvalent interactions with lipid bilayer are enabled and enhanced to promote both cellular uptake and endo/lysosomal escape. By leveraging the mesopores in the wall, the cavity can be readily loaded with various types of drugs for cytoplasmic delivery at maximal therapeutic efficacy. This work offers a rational approach to the development of advanced nanocarriers for biomedicine.

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Rational Synthesis of Virus-Mimicking Nanocarriers for Enhanced Intracellular Delivery through Polyvalent Interactions with Cells

Key Points

Abstract

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