Plant Extracellular Nanovesicle-Loaded Hydrogel for Topical Antibacterial Wound Healing In Vivo

伤口愈合 体内 细胞外 抗菌活性 药理学 化学 生物医学工程 医学 生物 外科 细菌 生物技术 生物化学 遗传学
作者
Saroj Saroj,Sunita Saha,Akbar Ali,Sanjay Gupta,Aditi Bharadwaj,Tanya Agrawal,Suchetan Pal,Tatini Rakshit
出处
期刊:ACS applied bio materials [American Chemical Society]
卷期号:8 (1): 1-11 被引量:19
标识
DOI:10.1021/acsabm.4c00992
摘要

Bacterial infections impede wound healing and pose significant challenges in clinical care. There is an immediate need for safe and targeted antivirulence agents to fight bacterial infections effectively. In this regard, bioderived nanovesicles have shown significant promise. This work demonstrated significant antibacterial properties of extracellular nanovesicles derived from plant (mint) leaf juice (MENV). A hydrogel (HG) was developed using oxidized alginate and chitosan and loaded with antibacterial MENVs (MENV-HG). This formulation was investigated for topical HG dressings to treat Gram-positive Micrococcus luteus and Gram-negative Escherichia coli-invasive wounds. The developed HG was injectable, biocompatible (>95% cell was viable), nonhemolytic (<5% hemolytic capacity), self-healing and exhibited strong physical and mechanical interactions with the bacteria cells (MENV-HG-treated bacteria were significantly more elastic compared to the control in both M. luteus (1.01 ± 0.3 MPa, p < 0.005 vs 5.03 ± 2.6) and E. coli (5.81 ± 2.1 MPa vs 10.81 ± 3.8, p < 0.005). MENV-HG was topically applied on wounds with a slow MENV release profile, ensuring effective healing. These in vivo results demonstrated decreased inflammation and expedited healing within 10 days of treatment (wound area closure was 99% with MENV-HG treatment and 87% for control). Taken together, MENV-HGs have the potential for a scalable and sustainable wound dressing strategy that works satisfactorily for bacteria-infected wound healing and to be validated in clinical trials.
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