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Block Sequence Effects on the Self-Assembly Behaviors of Polypeptide-Based Penta-Block Copolymer Hydrogels.

Ke-Hsin WangChung-Hao LiuDun-Heng TanMu-Ping NiehWei-Fang Su
Published in: ACS applied materials & interfaces (2024)
Peptide-based hydrogels have great potential for applications in tissue engineering, drug delivery, and so on. We systematically synthesize, characterize, and investigate the self-assembly behaviors of a series of polypeptide-based penta-block copolymers by varying block sequences and lengths. The copolymers contain hydrophobic blocks of poly(γ-benzyl-l-glutamate) (PBG, B x ) and two kinds of hydrophilic blocks, poly(l-lysine) (PLL, K y ) and poly(ethylene glycol) (PEG, EG 34 ), where x and y are the number of repeating units of each block, where PBG and PLL blocks have unique functions for nerve regeneration and cell adhesion. It shows that a sufficient length of the middle hydrophilic segment capped with hydrophobic end PBG blocks is required. They first self-assemble into flower-like micelles and sequentially form transparent hydrogels (as low as 2.3 wt %) with increased polymer concentration. The hydrogels contain a microscale porous structure, a desired property for tissue engineering to facilitate the access of nutrient flow for cell growth and drug delivery systems with high efficiency of drug storage. We hypothesize that the structure of B x -K y -EG 34 -K y -B x agglomerates is beyond micron size (transparent), while that of K y -B x -EG 34 -B x -K y is on the submicron scale (opaque). We establish a working strategy to synthesize a polypeptide-based block copolymer with a wide window of sol-gel transition. The study offers insight into rational polypeptide hydrogel design with specific morphology, exploring the novel materials as potential candidates for neural tissue engineering.
Keyphrases
  • tissue engineering
  • drug delivery
  • drug release
  • high efficiency
  • cancer therapy
  • cell adhesion
  • stem cells
  • emergency department
  • hyaluronic acid
  • risk assessment
  • ionic liquid
  • mass spectrometry
  • human health
  • adverse drug