Interdisciplinary Medicine (Jan 2023)

Dynamic responsiveness of self‐assembling peptide‐based nano‐drug systems

  • Yuhan Wang,
  • Jie Zhan,
  • Jinyan Huang,
  • Xing Wang,
  • Zehong Chen,
  • Zhimou Yang,
  • Jie Li

DOI
https://doi.org/10.1002/INMD.20220005
Journal volume & issue
Vol. 1, no. 1
pp. n/a – n/a

Abstract

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Abstract Dynamic‐responsive self‐assembly is the process of ordered supramolecular structure formation or reversible decomposition from building blocks. This process is driven by non‐covalent interactions based on complex stimulus‐responsive systems comprising different components within a microenvironment. Furthermore, stimuli‐responsive assembly‐disassembly is an intrinsic interaction process in organisms, indispensable in maintaining life activities and functions. However, the dynamic interactions between dynamically responsive nano‐drug systems (DRNSs) and biological systems remain unpredictable, which are a challenge for the precisely targeted therapy and controlled drug release of DRNSs in vivo. This review highlights novel self‐assembling peptide‐based nano‐drug systems and their biological interactions. By precisely controlling the shape and size of self‐assembled peptide nanomaterials, biologically simulated components with diverse biological functions and precise transport at the subcellular level can be achieved. We have also summarized the limitations and challenges of responsive self‐assembling peptide nanomaterials in clinical translation. Additionally, we have discussed the future perspectives of supramolecular therapeutics using signaling molecule gradient concentrations and efficiencies and highlighted the direction for developing clinically translatable smart nanomedicines.

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