Abstract
Purpose β-Defensin 118 (DEFB118) is a novel host defense peptide (HDP) identified in humans. To evaluate its potentials for future utilization, the DEFB118 gene was expressed in Escherichia coli (E. coli) and the recombinant protein was fully characterized. Methods The DEFB118 protein was obtained by heterologous expression using E. coli Rosetta (DE3). Antibacterial activity of DEFB118 was determined by using various bacterial strains. IPEC-J cells challenged by E. coli K88 were used to determine its influences on inflammatory responses. Results The E. coli transformants yielded more than 250 μg/mL DEFB118 protein after 4 h induction by 1.0 mM IPTG. The DEFB118 was estimated by SDS-PAGE to be 30 kDa, and MALDI-TOF analysis verified that it is a human β-defensin 118. Importantly, the DEFB118 showed antimicrobial activities against both Gram-negative bacteria (E. coli K88 and E. coli DH5α) and Gram-positive bacteria (S. aureus and B. subtilis), with a minimum inhibitory concentration (MIC) of 4 μg/mL. Hemolytic assays showed that DEFB118 had no detrimental impact on cell viability. Additionally, DEFB118 was found to elevate the viability of IPEC-J2 cells upon E. coli K88 challenge. Moreover, DEFB118 significantly decreased cell apoptosis in the late apoptosis phase and downregulated the expression of inflammatory cytokines such as IL-1β and TNF-α in IPEC-J2 cell exposure to E. coli K88. Conclusions These results suggested a novel function of the mammalian defensins, and the antibacterial and anti-inflammatory properties of DEFB118 may allow it as a potential substitute for conventionally used antibiotics or drugs.
Highlights
In the last decades, antibiotics have been widely used as a therapeutic medicine to control various infectious diseases [1,2,3]
These results suggested a novel function of the mammalian defensins, and the antibacterial and anti-inflammatory properties of DEFB118 may allow it as a potential substitute for conventionally used antibiotics or drugs
We found that DEFB118 can inhibit the adhesion of E. coli K88 to intestinal epithelial cells
Summary
Antibiotics have been widely used as a therapeutic medicine to control various infectious diseases [1,2,3]. Their continuous use leads to serious environmental pollution and increases the risk of developing drug resistance [4,5,6,7,8]. Previous studies indicated that HDPs can disrupt the bacterial membranes by forming nonspecific electrostatic interactions with membrane lipids and can protect the host from a broad range of pathogens including bacteria, virus, and fungus [15–. Considering the fact that bacteria are less able to develop resistance to HDPs than to traditional antibiotics [17], the administration of HDPs is a potentially novel therapeutic strategy for infectious diseases and may present a promising alternative to the traditional antibiotics
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