A biomimetic peptide recognizes and traps bacteria in vivo as human defensin-6.
Yu FanXiang-Dan LiPing-Ping HeXiao-Xue HuKuo ZhangJia-Qi FanPei-Pei YangHao-Yan ZhengWen TianZi-Ming ChenLei JiHao WangLei WangPublished in: Science advances (2020)
Using broad-spectrum antibiotics for microbial infection may cause flora disequilibrium, drug-resistance, etc., seriously threatening human health. Here, we design a human defensin-6 mimic peptide (HDMP) that inhibits bacterial invasion in vivo through mimicking the mechanisms of human defensin-6 with high efficiency and precision. The HDMP with ligand and self-assembling peptide sequence recognizes bacteria through ligand-receptor interactions and subsequently traps bacteria by an in situ adaptive self-assembly process and resulting nanofibrous networks; these trapped bacteria are unable to invade host cells. In four animal infection models, the infection rate was markedly decreased. Notably, administration of HDMP (5 mg/kg) nanoparticles increased the survival rate of mice with methicillin-resistant S. aureus bacteremia by as much as 100%, even more than that of vancomycin treatment (5 mg/kg, 83.3%)-treated group, the golden standard of antibiotics. This biomimetic peptide shows great potential as a precise and highly efficient antimicrobial agent.
Keyphrases
- endothelial cells
- human health
- highly efficient
- staphylococcus aureus
- risk assessment
- high efficiency
- pluripotent stem cells
- methicillin resistant staphylococcus aureus
- microbial community
- type diabetes
- cell proliferation
- tissue engineering
- multidrug resistant
- signaling pathway
- smoking cessation
- replacement therapy
- walled carbon nanotubes