1. Functional Mechanism of Antimicrobial Peptide Bomidin and Its Safety for Macrobrachium rosenbergii
- Author
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Jianqun Ling, Jianjun Dai, Wanjun Li, Miao Zhang, Youli Yu, Feng Xue, Fang Tang, Ying Liang, Lele Lian, Jianluan Ren, and Xiaohua Zhu
- Subjects
biology ,Membrane permeability ,medicine.drug_class ,Macrobrachium rosenbergii ,Vibrio parahaemolyticus ,Antibiotics ,Antimicrobial peptides ,Aquaculture ,Microbial Sensitivity Tests ,Antimicrobial ,biology.organism_classification ,Microbiology ,Mice ,Minimum inhibitory concentration ,medicine ,Animals ,Molecular Medicine ,Palaemonidae ,Molecular Biology ,Pathogen ,Antimicrobial Peptides - Abstract
Macrobrachium rosenbergii is an economically important source of crustacean seafood worldwide. Vibrio parahaemolyticus is an important aquatic pathogen that causes epidemics of acute hepatopancreatic necrosis in shrimp populations, which results in significant economic losses to aquaculture farmers. To prevent the antibiotics abuse, which has become a serious threat to human health, novel anti-infective strategies are urgently required to control V. parahaemolyticus. Antimicrobial peptides, which exhibit favourable germicidal activity compared to traditional antibiotics, can be used as a key method to prevent and treat bacterial diseases. Herein, an antimicrobial peptide, bomidin, was expressed through genetic engineering technology. The minimum inhibitory concentration (MIC) of bomidin showed a significant inhibitory effect on V. parahaemolyticus that was equivalent to that of ampicillin. Subsequently, the mechanism of action of recombinant bomidin was explored using PNP and ONPG assays to investigate the effects on membrane permeability. These assays indicated that bomidin penetrated the germ membrane and induced the release of cytoplasmic contents and ultimately interacted with DNA to form a bomidin-DNA complex that inhibits bacterial survival. Transmission electron microscopy and scanning electron microscopy revealed that bomidin could cause damage and dysfunction to the cell wall and membrane. Bomidin was nontoxic to mouse red blood cells within a concentration range that was much larger than the MIC. Toxicity assays revealed that 0.02 mg/mL bomidin was safe for use with juvenile freshwater prawns of M. rosenbergii and significantly inhibited the growth of V. parahaemolyticus in cultured water. These results demonstrated that synthetic peptide bomidin had great antibacterial effect against V. parahaemolyticus and therefore a therapeutic potential in aquaculture. more...
- Published
- 2021
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