芦荟不定根含矿物质-阳离子-植物DNA成分体外抗氧化及体内皮肤屏障修复效果研究

Dong-Myong Kim, Won-Jin Kim, Hyung-Kon Lee, Y. Kwon, Yeon-Mea Choi
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引用次数: 0

摘要

目的:从芦荟不定根中提取植物DNA,证实其在改善和再生皮肤及抗蓝光衰老中的作用。方法:提取植物DNA,制备含有聚赖氨酸和聚氨基胺的复合物。采用DPPH法对其抗氧化活性进行了验证。对成纤维细胞进行MTT试验。采用RT-PCR方法检测蓝光照射HaCaT细胞后SOD1、FLG、LOR、COL1A1、MMP1的表达。进行创面愈合试验。创建了植物DNA复合乳膏配方。用该方法测定人体应用后皮肤表皮水分流失情况。结果:在0.85%的阳离子聚合物-植物DNA复合物浓度下,成纤维细胞存活率为100%。在0.1%浓度下,抗氧化效果为93%。蓝光照射后,成纤维细胞存活率为40.4%,而100 μg/mL复合物处理后,成纤维细胞存活率为80.5%。当矿物质-阳离子-植物DNA复合物比例为10:1时,皮肤屏障因子的表达量最高。约95.7%的HaCaT细胞在含有植物DNA复合物的矿物质与不含植物DNA的矿物质复合物的比例为10:1时再生。结论:芦荟不定根植物DNA无细胞毒性,具有良好的DPPH自由基清除能力,可减轻蓝光细胞毒性。它可以通过植物DNA、阳离子聚合物和矿物质复合物的特定比例组成的协同作用,增加屏障因子的表达,从而改善皮肤屏障功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficacy in vitro Antioxidation and in vivo Skin Barrier Recovery of Composition Containing Mineral-cation-phyto DNA Extracted from Aloe vera Adventitious Root
Purpose: This study aimed to extract phyto DNA from the adventitious root of Aloe vera and confirm its role in improving and regenerating skin and antiaging properties caused by blue light.Methods: Phyto DNA was extracted and a complex containing polylysine and Poly (amidoamine) was made. The antioxidant activity was confirmed using the DPPH method. The MTT test was performed on fibroblasts. The expression of SOD1, FLG, LOR, COL1A1, and MMP1 was measured using RT–PCR after blue light irradiation on HaCaT cells. The wound-healing test was performed. A phyto DNA complex cream formulation was created. Using this method, skin epidermal water loss was determined after human application.Results: At 0.85% of the cation polymer–phyto DNA complex concentration, 100% of fibroblasts survived. At 0.1% concentration, the antioxidant effect was 93%. After being exposed to blue light, only 40.4% of fibroblasts survived, but after being treated with a 100 μg/mL complex, 80.5% survived. At a mineral–cation-phyto DNA complex ratio of 10:1, the expression of skin barrier factors was highest. About 95.7% of HaCaT cells regenerated at 10:1 ratio of the mineral with phyto DNA complex in comparison to complex with only the minerals without phyto DNA.Conclusion: Phyto DNA from aloe vera’s adventitious root has no cytotoxicity, has excellent DPPH free radical scavenging ability, and can mitigate blue light cytotoxicity. It can improve skin barrier function by increasing the expression of barrier factors via a synergistic action in a specific ratio composition of phyto DNA, cationic polymer, and mineral complexes.
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