Advanced Science (Nov 2024)

Cellular Uptake of Phase‐Separating Peptide Coacervates

  • Anastasia Shebanova,
  • Quentin Moana Perrin,
  • Kexin Zhu,
  • Sushanth Gudlur,
  • Zilin Chen,
  • Yue Sun,
  • Congxi Huang,
  • Zhi Wei Lim,
  • Evan Angelo Mondarte,
  • Ruoxuan Sun,
  • Sierin Lim,
  • Jing Yu,
  • Yansong Miao,
  • Atul N. Parikh,
  • Alexander Ludwig,
  • Ali Miserez

DOI
https://doi.org/10.1002/advs.202402652
Journal volume & issue
Vol. 11, no. 42
pp. n/a – n/a

Abstract

Read online

Abstract Peptide coacervates self‐assembling via liquid‐liquid phase separation are appealing intracellular delivery vehicles of macromolecular therapeutics (proteins, DNA, mRNA) owing to their non‐cytotoxicity, high encapsulation capacity, and efficient cellular uptake. However, the mechanisms by which these viscoelastic droplets cross the cellular membranes remain unknown. Here, using multimodal imaging, data analytics, and biochemical inhibition assays, we identify the key steps by which droplets enter the cell. We find that the uptake follows a non‐canonical pathway and instead integrates essential features of macropinocytosis and phagocytosis, namely active remodeling of the actin cytoskeleton and appearance of filopodia‐like protrusions. Experiments using giant unilamellar vesicles show that the coacervates attach to the bounding membrane in a charge‐ and cholesterol‐dependent manner but do not breach the lipid bilayer barrier. Cell uptake in the presence of small molecule inhibitors – interfering with actin and tubulin polymerization – confirm the active role of cytoskeleton remodeling, most prominently evident in electron microscopy imaging. These findings suggest a peculiar internalization mechanism for viscoelastic, glassy coacervate droplets combining features of non‐specific uptake of fluids by macropinocytosis and particulate uptake of phagocytosis. The broad implications of this study will enable to enhance the efficacy and utility of coacervate‐based strategies for intracellular delivery of macromolecular therapeutics.

Keywords