Hydrogel-Encapsulated Engineered Microbial Consortium as a Photoautotrophic “Living Material” for Promoting Skin Wound Healing

乳酸乳球菌 基因工程 自愈水凝胶 材料科学 微生物 细菌 微生物学 生物 生物化学 乳酸 遗传学 基因 高分子化学
作者
Lianyue Li,Chun Yang,Binglin Ma,Shenjunjie Lu,Jing Liu,Yiyang Pan,Xuyan Wang,Yiliang Zhang,Hanjie Wang,Tao Sun,Duo Liu
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:15 (5): 6536-6547 被引量:60
标识
DOI:10.1021/acsami.2c20399
摘要

Genetically modified engineered microorganisms have been encapsulated in hydrogels and used as "living materials" for the treatment of skin diseases. However, their applications are often limited by the epidermal dry, nutrient-poor environment and cannot maintain functions stably for an expected sufficient time. To solve this problem, a photoautotrophic "living material" containing an engineered microbial consortium was designed and fabricated. The engineered microbial consortium comprised Synechococcus elongatus PCC7942 for producing sucrose by photosynthesis and another heterotrophic engineered bacterium (Escherichia coli or Lactococcus lactis) that can utilize sucrose for the growth and secretion of functional biomolecules. These engineered microorganisms in the "living material" were proved to function stably for a longer time than only individual microbes. Subsequently, CXCL12-secreting engineered L. lactis was used to construct the "living material", and its effect on promoting wound healing was verified in a full-thickness rat-skin defect model. The wounds treated by our hydrogel-encapsulated engineered microbial consortium (HeEMC) healed faster, with a wound area ratio of only 13.2% at day 14, compared to the remaining 62.6, 51.4, and 40.8% of the control, PEGDA, and PEGDA/CS groups, respectively. In conclusion, we established an efficient living material HeEMC to offer promising applications in the treatment of skin diseases.
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