TY - JOUR
T1 - Arenicin-1-induced apoptosis-like response requires RecA activation and hydrogen peroxide against Escherichia coli
AU - Lee, Heejeong
AU - Lee, Dong Gun
N1 - Publisher Copyright:
© 2018, Springer-Verlag GmbH Germany, part of Springer Nature.
PY - 2019/2/11
Y1 - 2019/2/11
N2 - Arenicin-1, a 21-mer antimicrobial peptide exerts significant broad-spectrum antimicrobial activity with membrane-active mechanisms. However, owing to multiple mechanisms of cell death, the antibacterial mechanism of arenicin-1 requires detailed analysis. In the present study, arenicin-1-treated bacteria underwent an apoptosis-like response, which was mechanistically and morphologically similar to eukaryotic apoptosis. Changes in the physiological status of arenicin-1-treated bacterial cells involved accumulation of reactive oxygen species, imbalance of intracellular calcium gradients, disruption of membrane potential, bacterial caspase-like protein activation, and DNA damage. In arenicin-1-induced apoptosis-like death, autocleavage of LexA was observed because of the activation of the caspase-like activity of RecA. Additionally, typical reactive oxygen species such as superoxide, hydrogen peroxide, and hydroxyl radicals, were scavenged in arenicin-1-treated cells to assess the role of specific reactive oxygen species. Scavenging of hydrogen peroxide interfered with the activity of arenicin-1 in Escherichia coli, whereas the superoxide and hydroxyl radicals level did not affect arenicin-1-induced apoptosis-like death activity. Furthermore, inhibition of Fenton reaction attenuated apoptosis-like response. In conclusion, arenicin-1-induced apoptosis like death requires SOS response proteins and is mediated by hydrogen peroxide and Fenton reaction in E. coli. Arenicin-1 may be a representative antimicrobial peptide with potent apoptotic response against E. coli.
AB - Arenicin-1, a 21-mer antimicrobial peptide exerts significant broad-spectrum antimicrobial activity with membrane-active mechanisms. However, owing to multiple mechanisms of cell death, the antibacterial mechanism of arenicin-1 requires detailed analysis. In the present study, arenicin-1-treated bacteria underwent an apoptosis-like response, which was mechanistically and morphologically similar to eukaryotic apoptosis. Changes in the physiological status of arenicin-1-treated bacterial cells involved accumulation of reactive oxygen species, imbalance of intracellular calcium gradients, disruption of membrane potential, bacterial caspase-like protein activation, and DNA damage. In arenicin-1-induced apoptosis-like death, autocleavage of LexA was observed because of the activation of the caspase-like activity of RecA. Additionally, typical reactive oxygen species such as superoxide, hydrogen peroxide, and hydroxyl radicals, were scavenged in arenicin-1-treated cells to assess the role of specific reactive oxygen species. Scavenging of hydrogen peroxide interfered with the activity of arenicin-1 in Escherichia coli, whereas the superoxide and hydroxyl radicals level did not affect arenicin-1-induced apoptosis-like death activity. Furthermore, inhibition of Fenton reaction attenuated apoptosis-like response. In conclusion, arenicin-1-induced apoptosis like death requires SOS response proteins and is mediated by hydrogen peroxide and Fenton reaction in E. coli. Arenicin-1 may be a representative antimicrobial peptide with potent apoptotic response against E. coli.
KW - Apoptosis-like death
KW - Arenicin-1
KW - Hydrogen peroxide
KW - SOS response
UR - http://www.scopus.com/inward/record.url?scp=85048147486&partnerID=8YFLogxK
U2 - 10.1007/s00294-018-0855-3
DO - 10.1007/s00294-018-0855-3
M3 - Article
C2 - 29881920
AN - SCOPUS:85048147486
SN - 0172-8083
VL - 65
SP - 167
EP - 177
JO - Current Genetics
JF - Current Genetics
IS - 1
ER -