超声辅助过氧化氢降解增强了裂褶多糖促进伤口愈合和组织再生的生物活性。

Ultrasound-assisted HO degradation enhances the bioactivity of Schizophyllan for wound healing and tissue regeneration.

作者信息

He Hui, Liu Yu, Li Qingpeng, Chen Fenrou, Zhou Lin

机构信息

School of Life Sciences and Biopharmaceutics, Guangdong Pharmaceutical University, Guangzhou, Guangdong, China.

Guangdong Provincial Key Laboratory for Research and Evaluation of Pharmaceutical Preparations, Guangdong Pharmaceutical University, Guangzhou, China.

出版信息

Front Pharmacol. 2025 Mar 20;16:1562839. doi: 10.3389/fphar.2025.1562839. eCollection 2025.

DOI:10.3389/fphar.2025.1562839

PMID:40183104

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11966060/

Abstract

BACKGROUND

Schizophyllan (SPG), a bioactive polysaccharide from , possesses significant anti-inflammatory, antioxidant, and immunomodulatory properties. The molecular weight of polysaccharides significantly impacts their structural properties and biological functions. However, the functional characteristics of low molecular weight polysaccharides derived from remain inadequately explored.

METHODS

This study developed an ultrasound-assisted hydrogen peroxide (HO) degradation method to produce low-molecular-weight SPG with enhanced bioactivity. The process was optimized using response surface methodology, focusing on ultrasound duration, ultrasonic power, and HO concentration. This approach effectively reduced the molecular weight of SPG from 4,409,608 Da to 257,500 Da, yielding three distinct variants: SPG-a (257,500 Da), SPG-b (429,300 Da), and SPG-c (364,800 Da). The bioactivity of these variants was assessed through cell proliferation and migration assays using BJ and HaCaT cells, as well as an zebrafish larval caudal fin regeneration model.

RESULTS

, SPG-b significantly promoted cell proliferation, increasing BJ and HaCaT cells growth by 53.69% and 14.59%, respectively, at a concentration of 300 μg/mL ( < 0.05), compared to undegraded SPG. Additionally, scratch assays revealed that SPG-a enhanced BJ cells migration by 24.13% ( < 0.05), while SPG-b exhibited most pronounced effect on HaCaT cells migration (17.12%, < 0.05), compared to the undegraded SPG. , SPG-c (3.125 mg/mL) significantly improved fin regeneration rates by 6.97% ( < 0.05) in zebrafish larvae, compared to the undegraded SPG.

CONCLUSION

This study demonstrates that ultrasound-assisted HO degradation effectively reduces SPG molecular weight while enhancing its functional properties. These findings provide a foundation for the further development of SPG in pharmaceutical and cosmetic applications, highlighting its potential for broader utilization.

摘要

背景

裂褶菌多糖（SPG）是一种从裂褶菌中提取的生物活性多糖，具有显著的抗炎、抗氧化和免疫调节特性。多糖的分子量对其结构特性和生物学功能有显著影响。然而，源自裂褶菌的低分子量多糖的功能特性仍未得到充分探索。

方法

本研究开发了一种超声辅助过氧化氢（H₂O₂）降解方法，以生产具有增强生物活性的低分子量SPG。使用响应面法对该过程进行了优化，重点关注超声持续时间、超声功率和H₂O₂浓度。该方法有效地将SPG的分子量从4,409,608 Da降低到257,500 Da，产生了三个不同的变体：SPG-a（257,500 Da）、SPG-b（429,300 Da）和SPG-c（364,800 Da）。通过使用BJ和HaCaT细胞的细胞增殖和迁移试验以及斑马鱼幼体尾鳍再生模型评估了这些变体的生物活性。

结果

在300μg/mL的浓度下，与未降解的SPG相比，SPG-b显著促进细胞增殖，使BJ和HaCaT细胞的生长分别增加了53.69%和14.59%（P<0.05）。此外，划痕试验表明，与未降解的SPG相比，SPG-a使BJ细胞的迁移增加了24.13%（P<0.05），而SPG-b对HaCaT细胞的迁移表现出最显著的影响（17.12%，P<0.05）。在斑马鱼幼体中，与未降解的SPG相比，SPG-c（3.125mg/mL）显著提高了鳍再生率6.97%（P<0.05）。

结论

本研究表明，超声辅助H₂O₂降解有效地降低了SPG的分子量，同时增强了其功能特性。这些发现为SPG在制药和化妆品应用中的进一步开发提供了基础，突出了其更广泛应用的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/04b4/11966060/df86db496fb0/fphar-16-1562839-g001.jpg

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超声辅助过氧化氢降解增强了裂褶多糖促进伤口愈合和组织再生的生物活性。

Ultrasound-assisted HO degradation enhances the bioactivity of Schizophyllan for wound healing and tissue regeneration.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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