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Main Authors: Xu, Chunhua, Zhang, Yongchun, Li, Hui, Zhang, Zhihan, Sheng, Wenlong, Zhang, Shanshan, Li, Peihai, Zhang, Xuanming, Li, Xiaobin, Lin, Houwen, Duan, Hongdong, Guan, Shibing, Wang, Lizhen
Format: Artículo científico
Language:en
Published: International journal of biological macromolecules 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39615714/
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author Xu, Chunhua
Zhang, Yongchun
Li, Hui
Zhang, Zhihan
Sheng, Wenlong
Zhang, Shanshan
Li, Peihai
Zhang, Xuanming
Li, Xiaobin
Lin, Houwen
Duan, Hongdong
Guan, Shibing
Wang, Lizhen
author_facet Xu, Chunhua
Zhang, Yongchun
Li, Hui
Zhang, Zhihan
Sheng, Wenlong
Zhang, Shanshan
Li, Peihai
Zhang, Xuanming
Li, Xiaobin
Lin, Houwen
Duan, Hongdong
Guan, Shibing
Wang, Lizhen
Xu, Chunhua
Zhang, Yongchun
Li, Hui
Zhang, Zhihan
Sheng, Wenlong
Zhang, Shanshan
Li, Peihai
Zhang, Xuanming
Li, Xiaobin
Lin, Houwen
Duan, Hongdong
Guan, Shibing
Wang, Lizhen
collection PubMed - marine biology
contents Carboxymethylated yeast β-glucan: Biological activity screening in zebrafish, sprayable hydrogel preparation, and wound healing study in diabetic mice. Xu, Chunhua Zhang, Yongchun Li, Hui Zhang, Zhihan Sheng, Wenlong Zhang, Shanshan Li, Peihai Zhang, Xuanming Li, Xiaobin Lin, Houwen Duan, Hongdong Guan, Shibing Wang, Lizhen Animals Wound Healing Zebrafish beta-Glucans Mice Diabetes Mellitus, Experimental Hydrogels Antioxidants Anti-Inflammatory Agents Cell Movement Male Saccharomyces cerevisiae Yeast β-glucan exhibits dramatic potential as wound healing regent owing to its various biological properties including immunomodulatory, anti-inflammatory, and antioxidant. But, the poor water solubility of yeast β-glucan limits its application. In this study, some carboxymethylated yeast β-glucans (CMGs) with different substitution degree was prepared. The effect of substitution degree on biological activities of carboxymethylated yeast β-glucan was investigated using zebrafish model. CMG with substitution degree 0.55 showed anti-inflammatory, antioxidant, and immunomodulatory activities in zebrafish. CMG also showed potential ability to promote angiogenesis and caudal fin regeneration. The cytotoxicity of CMG was investigated on L929 cells and the effect of CMG on cell migration was studied by scratch test. The hemolysis ratio of CMG was determined, and the in vitro antioxidant activity was studied. Next, CMG was used to prepare a sprayable hydrogel through a simple method, and the wound healing ability was studied using a streptozotocin-induced diabetic mice model. The results indicated that CMG-based sprayable hydrogel could accelerate wound healing in a diabetic mice and influence the expression of biomarkers related to inflammatory, macrophage polarization, and angiogenesis.
format Artículo científico
id pubmed_39615714
institution PubMed
language en
publishDate 2025
publisher International journal of biological macromolecules
record_format pubmed
spellingShingle Carboxymethylated yeast β-glucan: Biological activity screening in zebrafish, sprayable hydrogel preparation, and wound healing study in diabetic mice.
Xu, Chunhua
Zhang, Yongchun
Li, Hui
Zhang, Zhihan
Sheng, Wenlong
Zhang, Shanshan
Li, Peihai
Zhang, Xuanming
Li, Xiaobin
Lin, Houwen
Duan, Hongdong
Guan, Shibing
Wang, Lizhen
Animals
Wound Healing
Zebrafish
beta-Glucans
Mice
Diabetes Mellitus, Experimental
Hydrogels
Antioxidants
Anti-Inflammatory Agents
Cell Movement
Male
Saccharomyces cerevisiae
Carboxymethylated yeast β-glucan: Biological activity screening in zebrafish, sprayable hydrogel preparation, and wound healing study in diabetic mice. Xu, Chunhua Zhang, Yongchun Li, Hui Zhang, Zhihan Sheng, Wenlong Zhang, Shanshan Li, Peihai Zhang, Xuanming Li, Xiaobin Lin, Houwen Duan, Hongdong Guan, Shibing Wang, Lizhen Animals Wound Healing Zebrafish beta-Glucans Mice Diabetes Mellitus, Experimental Hydrogels Antioxidants Anti-Inflammatory Agents Cell Movement Male Saccharomyces cerevisiae Yeast β-glucan exhibits dramatic potential as wound healing regent owing to its various biological properties including immunomodulatory, anti-inflammatory, and antioxidant. But, the poor water solubility of yeast β-glucan limits its application. In this study, some carboxymethylated yeast β-glucans (CMGs) with different substitution degree was prepared. The effect of substitution degree on biological activities of carboxymethylated yeast β-glucan was investigated using zebrafish model. CMG with substitution degree 0.55 showed anti-inflammatory, antioxidant, and immunomodulatory activities in zebrafish. CMG also showed potential ability to promote angiogenesis and caudal fin regeneration. The cytotoxicity of CMG was investigated on L929 cells and the effect of CMG on cell migration was studied by scratch test. The hemolysis ratio of CMG was determined, and the in vitro antioxidant activity was studied. Next, CMG was used to prepare a sprayable hydrogel through a simple method, and the wound healing ability was studied using a streptozotocin-induced diabetic mice model. The results indicated that CMG-based sprayable hydrogel could accelerate wound healing in a diabetic mice and influence the expression of biomarkers related to inflammatory, macrophage polarization, and angiogenesis.
title Carboxymethylated yeast β-glucan: Biological activity screening in zebrafish, sprayable hydrogel preparation, and wound healing study in diabetic mice.
topic Animals
Wound Healing
Zebrafish
beta-Glucans
Mice
Diabetes Mellitus, Experimental
Hydrogels
Antioxidants
Anti-Inflammatory Agents
Cell Movement
Male
Saccharomyces cerevisiae
url https://pubmed.ncbi.nlm.nih.gov/39615714/