Oligo-Adenine and Cyanuric Acid Supramolecular DNA-Based Hydrogels Exhibiting Acid-Resistance and Physiological pH-Responsiveness

Yuwei HU, Jia LIU, Yujie KE, Binju WANG, Jason Y.C. LIM, Zhaogang DONG, Yi LONG, Itamar WILLNER

Research output: Journal PublicationsJournal Article (refereed)peer-review

1 Citation (Scopus)

Abstract

Expanding the functions and applications of DNA by integrating noncanonical bases and structures into biopolymers is a continuous scientific effort. An adenine-rich strand (A-strand) is introduced as functional scaffold revealing, in the presence of the low-molecular-weight cofactor cyanuric acid (CA, pKa 6.9), supramolecular hydrogel-forming efficacies demonstrating multiple pH-responsiveness. At pH 1.2, the A-strand transforms into a parallel A-motif duplex hydrogel cross-linked by AH+-H+A units due to the protonation of adenine (pKa 3.5). At pH 5.2, and in the presence of coadded CA, a helicene-like configuration is formed between adenine and protonated CA, generating a parallel A-CA triplex cross-linked hydrogel. At pH 8.0, the hydrogel undergoes transition into a liquid state by deprotonation of CA cofactor units and disassembly of A-CA triplex into its constituent components. Density functional theory calculations and molecular dynamics simulations, supporting the structural reconfigurations of A-strand in the presence of CA, are performed. The sequential pH-stimulated hydrogel states are rheometrically characterized. The hydrogel framework is loaded with fluorescein-labeled insulin, and the pH-stimulated release of insulin from the hydrogel across the pH barriers present in the gastrointestinal tract is demonstrated. The results provide principles for future application of the hydrogel for oral insulin administration for diabetes.
Original languageEnglish
Pages (from-to)29235-29247
Number of pages13
JournalACS applied materials & interfaces
Volume16
Issue number22
Early online date21 May 2024
DOIs
Publication statusPublished - 5 Jun 2024
Externally publishedYes

Bibliographical note

Publisher Copyright:
© 2024 American Chemical Society

Funding

The research is supported by Career Development Fund (C210112014) and SERC Central Research Fund (CRF, UIBR) (both to Y.H.), IMRE, A*STAR, Singapore. J.Y.C.L. is grateful to the IAF-PP grant (OrBiTAl: Ocular Biomaterials for Vitreoretinal Therapeutic Applications; Grant H20c6a0033) for financial support. Z.D. acknowledges the funding support from A*STAR and NRF with the Quantum Engineering Programme 2.0 (Award NRF2021-QEP2-03-P09). The kind assistance from Dr. Jeremy Pang Kern Tan (Bioprocessing Technology Institute, A*STAR) on CD measurements is greatly appreciated.

Keywords

  • A-motif
  • biophysics
  • cofactor
  • drug delivery
  • insulin release

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