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Small Molecule Hydrogels Loading Small Molecule Drugs from Chinese Medicine for the Enhanced Treatment of Traumatic Brain Injury

Weikang Luo, Zhaoyu Yang, Jun Zheng, Zexuan Cai, Xuexuan Li, Jingjing Liu, Xiaohang Guo, Min Luo, Xudong Fan, Menghan Cheng, Tao Tang, Juewen Liu, Yang Wang

2024ACS Nano82 citationsDOI

Abstract

Self-assembly of hydrogels for mechanical support and drug delivery has been extensively researched in traumatic brain injury (TBI), where treatment options are limited. The chief challenge is that most self-assembled hydrogels rely on high molecular carriers or the incorporation of exogenous inactive substances as mediators. It is difficult for these drug delivery systems to achieve clinical translation due to concerns regarding biological safety. Here we report a small molecule hydrogel (GBR-gel) loading small molecule drugs (glycyrrhizic acid, berberine, and rhein) that originated from popular Chinese medicines without additional drug loading or inactive components under physiological conditions. In the long run, GBR-gel possesses several advantages, including ease of preparation, cost-effectiveness, and high biocompatibility. As a proof-of-concept, GBR-gel allows for prompt administration at the site of brain injury to exert potent pharmacodynamic effects. Further single-cell RNA sequencing and experimental validation indicated that GBR-gel can effectively rescue the suppressed glutamatergic synapse pathway after TBI, thereby attenuating inflammatory responses and neural impairments. Our work provides an alternative strategy for timely intervention of TBI.

Topics & Concepts

Traumatic brain injurySmall moleculeSelf-healing hydrogelsMoleculeMaterials scienceMedicineNanotechnologyChemistryOrganic chemistryBiochemistryPsychiatryPolymer chemistryTraumatic Brain Injury and Neurovascular DisturbancesBarrier Structure and Function StudiesAnesthesia and Neurotoxicity Research