College of Food Science, Fujian Agriculture and Forestry University, Fuzhou 350002, China; Engineering Research Center of Fujian Subtropical Fruit and Vegetable Processing, Fujian Agriculture and Forestry University, Fuzhou 350002, China.
National Engineering Research Center of JUNCAO Technology, Fujian Agriculture and Forestry University, Fuzhou 350002, China.
Int J Biol Macromol. 2024 Nov;281(Pt 1):136097. doi: 10.1016/j.ijbiomac.2024.136097. Epub 2024 Sep 29.
Low molecular weight polysaccharides had higher bio-activity and bioavailability compared to ultra-high molecular weight polysaccharides, this study aimed to obtain low molecular weight polysaccharides from Tremella fuciformis (TFLP) by using high-temperature and high-pressure assisted hydrochloric acid method to degrade Tremella fuciformis polysaccharides (TFP), and the structural characteristics, in vivo antioxidant and immune enhancing activities of TFP and TFLP was explored through Caenorhabditis elegans (C. elegans) and mice model. It was found that TFP and TFLP were acidic polysaccharides with molecular weights of 2238 kDa and 3 kDa, respectively. The glycosidic bonding of TFP and TFLP was mainly composed of different configurations of mannopyranose. TFP and TFLP had excellent in vivo antioxidant activity and stress resistance by regulating the mRNA transcription level and metabolites in C. elegans. Results also showed that TFP and TFLP could enhance the antioxidant capacity and immunity of serum, spleen and small intestine tissues in normal mice and cyclophosphamide-induced immunosuppressive mice through regulating the relative transcription and expression levels of anti-inflammatory related signaling factors, and it has found that TFLP showed better immune enhancement and antioxidant activity than TFP. In addition, Akkermansia, Bacteroides and Alloprevotella were characteristic bacteria at the genus level in immunosuppressed mice intervened with TFLP, with a significant increase in relative abundance. The content of SCFAs significantly increased in immunosuppressed mice by TFLP. These results indicated that TFP and TFLP had potential in vivo antioxidant and immune enhancing activities.
与超高相对分子质量多糖相比,低相对分子质量多糖具有更高的生物活性和生物利用度。本研究旨在采用高温高压辅助盐酸法降解银耳多糖(TFP),从银耳(TFLP)中获得低相对分子质量多糖,并通过秀丽隐杆线虫(C. elegans)和小鼠模型探索 TFP 和 TFLP 的结构特征、体内抗氧化和免疫增强活性。结果表明,TFP 和 TFLP 是酸性多糖,相对分子质量分别为 2238 kDa 和 3 kDa。TFP 和 TFLP 的糖苷键主要由不同构型的甘露吡喃糖组成。TFP 和 TFLP 通过调节秀丽隐杆线虫的 mRNA 转录水平和代谢物,具有优异的体内抗氧化活性和应激抗性。结果还表明,TFP 和 TFLP 可通过调节抗炎相关信号因子的相对转录和表达水平,增强正常小鼠和环磷酰胺诱导免疫抑制小鼠的血清、脾脏和小肠组织的抗氧化能力和免疫力,并且发现 TFLP 比 TFP 具有更好的免疫增强和抗氧化活性。此外,在 TFLP 干预的免疫抑制小鼠中,阿克曼菌属、拟杆菌属和 Alloprevotella 是属水平的特征细菌,相对丰度显著增加。TFLP 使免疫抑制小鼠的 SCFAs 含量显著增加。这些结果表明,TFP 和 TFLP 具有体内抗氧化和免疫增强的潜力。
