白色念珠菌
阴道炎
乳酸菌
益生菌
微生物学
阴道菌群
阴道
化学
医学
生物
细菌
细菌性阴道病
妇科
外科
遗传学
作者
Gen Wei,Quanyi Liu,Xiaoyu Wang,Zijun Zhou,Xiaozhi Zhao,Wanqing Zhou,Wanling Liu,Yihong Zhang,Shujie Liu,Chenxin Zhu,Hui Wei
出处
期刊:Science Advances
[American Association for the Advancement of Science (AAAS)]
日期:2023-05-17
卷期号:9 (20)
被引量:29
标识
DOI:10.1126/sciadv.adg0949
摘要
Molecular therapeutics are limited for Candida vaginitis because they damage normal cells and tissues of vagina, aggravating the imbalance of vaginal microbiota and increasing the recurrence. To tackle this limitation, through the combination of peroxidase-like rGO@FeS 2 nanozymes [reduced graphene oxide (rGO)] with Lactobacillus -produced lactic acid and H 2 O 2 , a responsive hyaluronic acid (HA) hydrogel rGO@FeS 2 / Lactobacillus @HA (FeLab) is developed. FeLab has simultaneous anti– Candida albicans and vaginal microbiota–modulating activities. In particular, the hydroxyl radical produced from rGO@FeS 2 nanozymes and Lactobacillus kills C. albicans isolated from clinical specimens without affecting Lactobacillus . In mice with Candida vaginitis, FeLab has obvious anti– C. albicans activity but hardly damages vaginal mucosa cells, which is beneficial to vaginal mucosa repair. Moreover, a higher proportion of Firmicutes (especially Lactobacillus ) and a decrease in Proteobacteria reshape a healthy vaginal microbiota to reduce the recurrence. These results provide a combined therapeutic of nanozymes and probiotics with translational promise for Candida vaginitis therapy.
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