TY - JOUR
T1 - Enterococcus faecalis Modulates Immune Activation and Slows Healing during Wound Infection
AU - Chong, Kelvin Kian Long
AU - Tay, Wei Hong
AU - Janela, Baptiste
AU - Yong, Adeline Mei Hui
AU - Liew, Tze Horng
AU - Madden, Leigh
AU - Keogh, Damien
AU - Barkham, Timothy Mark Sebastian
AU - Ginhoux, Florent
AU - Becker, David Laurence
AU - Kline, Kimberly A.
N1 - Publisher Copyright:
© The Author(s) 2017.
PY - 2017/12/15
Y1 - 2017/12/15
N2 - Enterococcus faecalis is one of the most frequently isolated bacterial species in wounds yet little is known about its pathogenic mechanisms in this setting. Here, we used a mouse wound excisional model to characterize the infection dynamics of E faecalis and show that infected wounds result in 2 different states depending on the initial inoculum. Low-dose inocula were associated with shortterm, low-titer colonization whereas high-dose inocula were associated with acute bacterial replication and long-term persistence. High-dose infection and persistence were also associated with immune cell infiltration, despite suppression of some inflammatory cytokines and delayed wound healing. During high-dose infection, the multiple peptide resistance factor, which is involved in resisting immune clearance, contributes to E faecalis fitness. These results comprehensively describe a mouse model for investigating E faecalis wound infection determinants, and suggest that both immune modulation and resistance contribute to persistent, nonhealing wounds.
AB - Enterococcus faecalis is one of the most frequently isolated bacterial species in wounds yet little is known about its pathogenic mechanisms in this setting. Here, we used a mouse wound excisional model to characterize the infection dynamics of E faecalis and show that infected wounds result in 2 different states depending on the initial inoculum. Low-dose inocula were associated with shortterm, low-titer colonization whereas high-dose inocula were associated with acute bacterial replication and long-term persistence. High-dose infection and persistence were also associated with immune cell infiltration, despite suppression of some inflammatory cytokines and delayed wound healing. During high-dose infection, the multiple peptide resistance factor, which is involved in resisting immune clearance, contributes to E faecalis fitness. These results comprehensively describe a mouse model for investigating E faecalis wound infection determinants, and suggest that both immune modulation and resistance contribute to persistent, nonhealing wounds.
KW - Enterococcus faecalis
KW - immune evasion
KW - multiple peptide resistant factor
KW - persistence
KW - wound infection
UR - http://www.scopus.com/inward/record.url?scp=85040065407&partnerID=8YFLogxK
U2 - 10.1093/infdis/jix541
DO - 10.1093/infdis/jix541
M3 - Article
C2 - 29045678
AN - SCOPUS:85040065407
SN - 0022-1899
VL - 216
SP - 1644
EP - 1654
JO - Journal of Infectious Diseases
JF - Journal of Infectious Diseases
IS - 12
ER -