Adsorption Separation Group, Department of Chemical Engineering, Federal University of Ceará, Fortaleza, Ceará 60455-760, Brazil.
Molecular and Structural Biotechnology Group, Department of Biochemistry and Biology, Federal University of Ceará, 60020-181 Fortaleza, Ceará, Brazil.
Int J Biol Macromol. 2024 Sep;276(Pt 2):133774. doi: 10.1016/j.ijbiomac.2024.133774. Epub 2024 Jul 14.
Bacterial cellulose (BC), produced by bacterial fermentation, is a high-purity material. BC can be oxidized (BCOXI), providing aldehyde groups for covalent bonds with drugs. Frutalin (FTL) is a lectin capable of modulating cell proliferation and remodeling, which accelerates wound healing. This study aimed to develop an FTL-incorporated dressing based on BC, and to evaluate its physicochemical properties and biological activity in vitro. An experimental design was employed to maximize FTL loading yield onto the BC and BCOXI, where independent variables were FTL concentration, temperature and immobilization time. BCOXI-FTL 1 (44.96 % ± 1.34) had the highest incorporation yield (IY) at the experimental conditions: 6 h, 5 °C, 20 μg mL. The second highest yield was BCOXI-FTL 6 (23.28 % ± 1.43) using 24 h, 5 °C, 100 μg mL. Similarly, the same reaction parameters provided higher immobilization yields for native bacterial cellulose: BC-FTL 6 (16.91 % ± 1.05) and BC-FTL 1 (21.71 % ± 1.57). Purified FTL displayed no cytotoxicity to fibroblast cells (<50 μg mL concentration) during 24 h. Furthermore, BCOXI-FTL and BC-FTL were non-cytotoxic during 24 h and stimulated fibroblast migration. BCOXI-FTL demonstrated neutrophil activation in vitro similar to FTL. These promising results indicate that the bacterial cellulose matrices containing FTL at low concentrations, could be used as an innovative biomaterial for developing wound dressings.
细菌纤维素(BC)是由细菌发酵产生的高纯度材料。BC 可被氧化(BCOXI),为与药物形成共价键提供醛基。Frutalin(FTL)是一种能够调节细胞增殖和重塑的凝集素,可加速伤口愈合。本研究旨在开发一种基于 BC 的 FTL 载体制剂,并评估其在体外的理化性质和生物活性。采用实验设计来最大限度地提高 FTL 对 BC 和 BCOXI 的负载产率,其中独立变量为 FTL 浓度、温度和固定化时间。在实验条件下,BCOXI-FTL1(44.96%±1.34)的负载产率最高(IY)。其次是 BCOXI-FTL6(23.28%±1.43),使用 24 小时,5°C,100μgmL。同样,相同的反应参数为天然细菌纤维素提供了更高的固定化产率:BC-FTL6(16.91%±1.05)和 BC-FTL1(21.71%±1.57)。在 24 小时内,纯化的 FTL 在浓度<50μgmL 时对成纤维细胞无细胞毒性。此外,BCOXI-FTL 和 BC-FTL 在 24 小时内无细胞毒性,并刺激成纤维细胞迁移。BCOXI-FTL 在体外具有与 FTL 相似的中性粒细胞激活作用。这些有希望的结果表明,含有低浓度 FTL 的细菌纤维素基质可作为开发伤口敷料的新型生物材料。
