Communications Chemistry (Nov 2024)

Liquid-liquid crystalline phase separation of spider silk proteins

  • Michael Landreh,
  • Hannah Osterholz,
  • Gefei Chen,
  • Stefan D. Knight,
  • Anna Rising,
  • Axel Leppert

DOI
https://doi.org/10.1038/s42004-024-01357-2
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 8

Abstract

Read online

Abstract Liquid-liquid phase separation (LLPS) of proteins can be considered an intermediate solubility regime between disperse solutions and solid fibers. While LLPS has been described for several pathogenic amyloids, recent evidence suggests that it is similarly relevant for functional amyloids. Here, we review the evidence that links spider silk proteins (spidroins) and LLPS and its role in the spinning process. Major ampullate spidroins undergo LLPS mediated by stickers and spacers in their repeat regions. During spinning, the spidroins droplets shift from liquid to crystalline states. Shear force, altered ion composition, and pH changes cause micelle-like spidroin assemblies to form an increasingly ordered liquid-crystalline phase. Interactions between polyalanine regions in the repeat regions ultimately yield the characteristic β-crystalline structure of mature dragline silk fibers. Based on these findings, we hypothesize that liquid-liquid crystalline phase separation (LLCPS) can describe the molecular and macroscopic features of the phase transitions of major ampullate spidroins during spinning and speculate whether other silk types may use a similar mechanism to convert from liquid dope to solid fiber.