Aptamer Functionalized Hydrogel Dressings for Post-Surgery Tumor Recurrence Inhibition and Tissue Reconstruction

Tianyue Li; Xin Yi Qian; Zi Yuan Li; Hao Wen Li; Poh Ching Tan; Chenghuizi Hu; Jiajun Jin; Shuang Bai Zhou; Qing Feng Li; He Tian; Junji Zhang; Itamar Willner

doi:10.1002/adfm.202508677

Aptamer Functionalized Hydrogel Dressings for Post-Surgery Tumor Recurrence Inhibition and Tissue Reconstruction

Tianyue Li, Xin Yi Qian, Zi Yuan Li^*, Hao Wen Li, Poh Ching Tan, Chenghuizi Hu, Jiajun Jin, Shuang Bai Zhou^*, Qing Feng Li, He Tian, Junji Zhang^*, Itamar Willner^*

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Tumor post-surgical therapy faces two critical challenges of local tumor recurrence and tissue repairing. Residual tumor cells pose a significant risk for recurrence and metastasis, while post-operative wound complications hinder patient recovery. Inflammatory responses from surgical trauma further exacerbate tumor regrowth and delay healing. Hydrogels, particularly DNA-based hydrogels, emerge as promising biomaterials for regenerative medicine. Their unique properties, including biocompatibility, programmability, and specific molecular recognition, make them suitable candidates for dual-function wound dressings. In this study, DNA aptamer-functionalized gelatin (Apt-GelMA) hydrogels are developed incorporating anti-HGF c-Met and anti-EGFR CL-4 aptamers. The Apt-GelMA hydrogel significantly suppresses local tumor regrowth while accelerating wound healing through enhanced cell adhesion and migration. Additionally, after attaching aptamers to the polymer chains, their stability or resistance to degradation is greatly improved. The results demonstrate Apt-GelMA as a promising post-surgical dressing with dual therapeutic functions, offering future potential clinical applications.

Original language	English
Journal	Advanced Functional Materials
DOIs	https://doi.org/10.1002/adfm.202508677
State	Accepted/In press - 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Advanced Functional Materials published by Wiley-VCH GmbH.

Keywords

DNA aptamer
hydrogels
oligonucleotide
tumor inhibition
wound healing

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10.1002/adfm.202508677

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title = "Aptamer Functionalized Hydrogel Dressings for Post-Surgery Tumor Recurrence Inhibition and Tissue Reconstruction",

abstract = "Tumor post-surgical therapy faces two critical challenges of local tumor recurrence and tissue repairing. Residual tumor cells pose a significant risk for recurrence and metastasis, while post-operative wound complications hinder patient recovery. Inflammatory responses from surgical trauma further exacerbate tumor regrowth and delay healing. Hydrogels, particularly DNA-based hydrogels, emerge as promising biomaterials for regenerative medicine. Their unique properties, including biocompatibility, programmability, and specific molecular recognition, make them suitable candidates for dual-function wound dressings. In this study, DNA aptamer-functionalized gelatin (Apt-GelMA) hydrogels are developed incorporating anti-HGF c-Met and anti-EGFR CL-4 aptamers. The Apt-GelMA hydrogel significantly suppresses local tumor regrowth while accelerating wound healing through enhanced cell adhesion and migration. Additionally, after attaching aptamers to the polymer chains, their stability or resistance to degradation is greatly improved. The results demonstrate Apt-GelMA as a promising post-surgical dressing with dual therapeutic functions, offering future potential clinical applications.",

keywords = "DNA aptamer, hydrogels, oligonucleotide, tumor inhibition, wound healing",

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note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Advanced Functional Materials published by Wiley-VCH GmbH.",

year = "2025",

doi = "10.1002/adfm.202508677",

language = "אנגלית",

journal = "Advanced Functional Materials",

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TY - JOUR

T1 - Aptamer Functionalized Hydrogel Dressings for Post-Surgery Tumor Recurrence Inhibition and Tissue Reconstruction

AU - Li, Tianyue

AU - Qian, Xin Yi

AU - Li, Zi Yuan

AU - Li, Hao Wen

AU - Tan, Poh Ching

AU - Hu, Chenghuizi

AU - Jin, Jiajun

AU - Zhou, Shuang Bai

AU - Li, Qing Feng

AU - Tian, He

AU - Zhang, Junji

AU - Willner, Itamar

PY - 2025

Y1 - 2025

N2 - Tumor post-surgical therapy faces two critical challenges of local tumor recurrence and tissue repairing. Residual tumor cells pose a significant risk for recurrence and metastasis, while post-operative wound complications hinder patient recovery. Inflammatory responses from surgical trauma further exacerbate tumor regrowth and delay healing. Hydrogels, particularly DNA-based hydrogels, emerge as promising biomaterials for regenerative medicine. Their unique properties, including biocompatibility, programmability, and specific molecular recognition, make them suitable candidates for dual-function wound dressings. In this study, DNA aptamer-functionalized gelatin (Apt-GelMA) hydrogels are developed incorporating anti-HGF c-Met and anti-EGFR CL-4 aptamers. The Apt-GelMA hydrogel significantly suppresses local tumor regrowth while accelerating wound healing through enhanced cell adhesion and migration. Additionally, after attaching aptamers to the polymer chains, their stability or resistance to degradation is greatly improved. The results demonstrate Apt-GelMA as a promising post-surgical dressing with dual therapeutic functions, offering future potential clinical applications.

AB - Tumor post-surgical therapy faces two critical challenges of local tumor recurrence and tissue repairing. Residual tumor cells pose a significant risk for recurrence and metastasis, while post-operative wound complications hinder patient recovery. Inflammatory responses from surgical trauma further exacerbate tumor regrowth and delay healing. Hydrogels, particularly DNA-based hydrogels, emerge as promising biomaterials for regenerative medicine. Their unique properties, including biocompatibility, programmability, and specific molecular recognition, make them suitable candidates for dual-function wound dressings. In this study, DNA aptamer-functionalized gelatin (Apt-GelMA) hydrogels are developed incorporating anti-HGF c-Met and anti-EGFR CL-4 aptamers. The Apt-GelMA hydrogel significantly suppresses local tumor regrowth while accelerating wound healing through enhanced cell adhesion and migration. Additionally, after attaching aptamers to the polymer chains, their stability or resistance to degradation is greatly improved. The results demonstrate Apt-GelMA as a promising post-surgical dressing with dual therapeutic functions, offering future potential clinical applications.

KW - DNA aptamer

KW - hydrogels

KW - oligonucleotide

KW - tumor inhibition

KW - wound healing

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JO - Advanced Functional Materials

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Aptamer Functionalized Hydrogel Dressings for Post-Surgery Tumor Recurrence Inhibition and Tissue Reconstruction

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Keywords

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