Synthesis, characterization, and wound healing activity of alginate-based polymeric nanoparticles loaded with stingless bee honey

IF 3.4 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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Abstract

Nanobiotechnology could aid in developing honey-based natural wound healing agents. In the present work, stingless bee honey (SBH) loaded alginate nanoparticles (H-ALG NPs) were formulated with an ionic crosslinking method and thoroughly characterized. The average size of the H-ALG NPs was observed to be 312 ± 4.32 nm, with 0.112 ± 0.04 PDI and - 21.2 ± 0.29 mV Zeta potential. TEM and SEM imaging confirmed the presence of spherical-shaped NPs. Encapsulation efficiency and loading capacity were observed to be 84.74% and 23.12%, respectively. Further, H-ALG NPs showed dose-dependent radical scavenging activity against DPPH with IC50 23.20 compared to 35.99 mg/mL for SBH, suggesting antioxidant potential. The H-ALG NPs were also tested for cytotoxicity on a human dermal fibroblast cell line and exhibited low toxicity with a higher IC50 than SBH (970.07 vs. 755.67 μg/mL; P < 0.001). H-ALG NPs also significantly promoted the migration of fibroblasts as indicated by scratch assay. The qPCR analysis for gene expression demonstrated that H-ALG NPs potentially promote the production of proinflammatory mediators (i.e., TNF-α, IL-6, IL-1β and IL-8) in fibroblasts, which play a crucial role in wound healing, albeit at lower levels compared to SBH. The mouse wound model confirmed that H-ALG NPs accelerated wound healing (P < 0.05) with improved histological characteristics. These findings highlight H-ALG NPs as a potential natural and effective therapeutic agent for wound management and advocate for further exploration of the antioxidant-based medicinal properties of SBH.

负载无刺蜂蜂蜜的藻酸盐基聚合物纳米粒子的合成、表征和伤口愈合活性
纳米生物技术有助于开发基于蜂蜜的天然伤口愈合剂。本研究采用离子交联法配制了负载海藻酸盐的无刺蜜蜂蜂蜜(SBH)纳米颗粒(H-ALG NPs),并对其进行了全面表征。H-ALG NPs 的平均粒径为 312 ± 4.32 nm,PDI 为 0.112 ± 0.04,Zeta 电位为 - 21.2 ± 0.29 mV。TEM 和 SEM 图像证实了球形 NPs 的存在。据观察,封装效率和负载能力分别为 84.74% 和 23.12%。此外,H-ALG NPs 对 DPPH 的自由基清除活性呈剂量依赖性,IC50 为 23.20,而 SBH 为 35.99 mg/mL,表明其具有抗氧化潜力。还测试了 H-ALG NPs 对人真皮成纤维细胞系的细胞毒性,结果显示其毒性较低,IC50 值高于 SBH(970.07 vs. 755.67 μg/mL; P < 0.001)。划痕试验表明,H-ALG NPs 还能显著促进成纤维细胞的迁移。基因表达的 qPCR 分析表明,H-ALG NPs 有可能促进成纤维细胞产生促炎介质(即 TNF-α、IL-6、IL-1β 和 IL-8),这些介质在伤口愈合中起着至关重要的作用,尽管与 SBH 相比,其水平较低。小鼠伤口模型证实,H-ALG NPs 加快了伤口愈合(P < 0.05)并改善了组织学特征。这些研究结果突出表明,H-ALG NPs 是一种潜在的天然、有效的伤口治疗剂,并提倡进一步探索 SBH 的抗氧化药用特性。
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来源期刊
Biocatalysis and agricultural biotechnology
Biocatalysis and agricultural biotechnology Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
7.70
自引率
2.50%
发文量
308
审稿时长
48 days
期刊介绍: Biocatalysis and Agricultural Biotechnology is the official journal of the International Society of Biocatalysis and Agricultural Biotechnology (ISBAB). The journal publishes high quality articles especially in the science and technology of biocatalysis, bioprocesses, agricultural biotechnology, biomedical biotechnology, and, if appropriate, from other related areas of biotechnology. The journal will publish peer-reviewed basic and applied research papers, authoritative reviews, and feature articles. The scope of the journal encompasses the research, industrial, and commercial aspects of biotechnology, including the areas of: biocatalysis; bioprocesses; food and agriculture; genetic engineering; molecular biology; healthcare and pharmaceuticals; biofuels; genomics; nanotechnology; environment and biodiversity; and bioremediation.
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