Antibacterial and Anti-Inflammatory Effects of Novel Peptide Toxin from the Spider Pardosa astrigera.
Min Kyoung ShinIn-Wook HwangYunkyung KimSeung Tae KimWonhee JangSeungki LeeWoo Young BangChang-Hwan BaeJung-Suk SungPublished in: Antibiotics (Basel, Switzerland) (2020)
The prevalence of antibiotic-resistant bacteria has become an immediate threat to public health. Antimicrobial peptides are attracting attention as a new source of antibiotics due to their ability to prevent drug-resistances with fewer side effects. Spider venom is composed of various bioactive substances with multiple functionalities such as antimicrobial and anti-inflammatory effects. Here, RNA sequencing was conducted on the venom gland of the spider Pardosa astrigera, and a potential toxin peptide with antibacterial properties was selected via homology and in silico analysis. A novel toxin, Lycotoxin-Pa4a, inhibited both gram-negative and gram-positive bacteria by disrupting the outer and bacterial cytoplasmic membrane. Moreover, the peptide downregulated the expression of pro-inflammatory mediators while upregulating the level of anti-inflammatory cytokine by inactivating mitogen-activated protein kinase signaling in a lipopolysaccharide-stimulated murine macrophage cell line. In this research, we identified a novel peptide toxin, Lycotoxin-pa4a, with antibacterial and anti-inflammatory properties, suggesting its potential for the development of a new antibiotics, as well as offering insights into the utilization of biological resources.
Keyphrases
- anti inflammatory
- gram negative
- escherichia coli
- public health
- multidrug resistant
- silver nanoparticles
- poor prognosis
- staphylococcus aureus
- single cell
- working memory
- toll like receptor
- molecular docking
- tyrosine kinase
- drinking water
- essential oil
- climate change
- long non coding rna
- wound healing
- emergency department
- adverse drug
- human health