期刊
GELS
卷 8, 期 6, 页码 -出版社
MDPI
DOI: 10.3390/gels8060387
关键词
horseradish peroxidase; myoblast; skeletal muscle; tissue engineering; gelatin
资金
- PHC SAKURA 2019 program-JSPS Bilateral Joint Research Projects [43019NM]
- JSPS [20KK0112]
This study investigates the impact of physicochemical properties on myogenesis in vitro by tuning the exposure time of Gelatin-Ph hydrogel to air containing H2O2. The results show that the stiffness of the hydrogel and degradation rate can be controlled by adjusting the exposure time, which influences the adhesion and myotube formation of myoblasts.
Engineering skeletal muscle tissue in vitro is important to study the mechanism of myogenesis, which is crucial for regenerating muscle cells. The physicochemical properties of the cellular microenvironment are known to govern various cell behaviours. Yet, most studies utilised synthetic materials to model the extracellular matrix that suffers from cytotoxicity to the cells. We have previously reported that the physicochemical property of hydrogels obtained from horseradish peroxidase (HRP)-catalysed cross-linking could be controlled by a simple adjustment to the exposure time to air containing H2O2. In this study, we evaluated the influence of physicochemical properties dynamics in the gelatin possessing phenol groups (Gelatin-Ph) hydrogel to regulate the myogenesis in vitro. We controlled the Young's modulus of the Gelatin-Ph hydrogel by tuning the air containing 16 ppm H2O2 exposure time for 15-60 min. Additionally, prolonged exposure to air containing H2O2 also induced Gelatin-Ph degradation. Myoblasts showed higher adhesion and myotube formation on stiff hydrogel (3.53 kPa) fabricated through 30 min of exposure to air containing H2O2 compared to those on softer hydrogel (0.77-2.79 kPa) fabricated through 15, 45, and 60 min of the exposure. These results demonstrate that the myogenesis can be tuned by changes in the physicochemical properties of Gelatin-Ph hydrogel mediated by H2O2.
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