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Programmable Membrane-Mediated Attachment of Synthetic Virus-like Nanoparticles on Artificial Protocells for Enhanced Immunogenicity

Vincent Mukwaya, Peipei Zhang, Lingshan Liu, Auphedeous Y. Dang-i, Mei Li, Stephen Mann, Hongjing Dou

2021Cell Reports Physical Science28 citationsDOIOpen Access PDF

Abstract

The programming of protocells to implement and control the functions of living cells through activated membrane receptor signaling remains a challenge for the development of protoliving technologies. Here, we report a synthetic protocell capable of inducing high levels of macrophage activation in vitro. An immunogenic protocell comprising hyaluronic acid (HA)-polymer membrane decorated with synthetic virus-like particles derived from the functionalization of core-shell polymer nanoparticles with a Toll-like receptor agonist (Pam3SK4) and cell/protocell membrane-binding lectin (WGA) is fabricated. While the non-decorated HA-based protocells and functionalized SVLPs alone initiate moderate levels of macrophage activation, co-presentation of WGA and Pam3SK4 on the protocell membrane results in hyperactivation of the phagocytes via a synergistic multi-receptor process. This work offers opportunities for developing chemically programmable soft microscale agents capable of eliciting cellular signal transduction and genetic outputs and provides a step toward implementing future therapeutic strategies based on cognate interactions at the cell-protocell interface.

Topics & Concepts

ProtocellArtificial cellCell biologyMembraneTransduction (biophysics)BiologyChemistryBiophysicsBiochemistryLipid Membrane Structure and BehaviorAdvanced biosensing and bioanalysis techniquesSupramolecular Self-Assembly in Materials